KİŞİSEL BİLGİLER

Doğum Yeri / Tarihi : Çarşamba     /    25.02.1947
Medeni Durumu : Evli , 3 çocuklu
İş Adresi : Haliç Üniversitesi, Mühendislik Fakültesi, Sıracevizler Cad., No: 29, 34363 Bomonti, Şişli, İstanbul
Ev Adresi : Adnan Kahveci Mahallesi, Kuştepe Cad., Simakent Sitesi, Manolya Blok, No: 4-A, Daire: 51, Beylikdüzü, İstanbul
Telefon : (İş) 2123430887  Dahili : 1117    (Ev) 2128557039
Faks : 2123430878
E-Posta : muhammetkoksal@halic.edu.tr

EĞİTİM

Lisans : ODTÜ , Elektrik Elektronik Mühendisliği (3.73/4.00), 09-1969
Yüksek Lisans : ODTÜ , Elektrik Elektronik Mühendisliği (4.00/4.00), 02-1972
Doktora : ODTÜ , Elektrik Elektronik Mühendisliği (4.00/4.00), 06-1975
Doçentlik : ODTÜ , Elektrik Elektronik Mühendisliği, 10-1983
Profesörlük : Gazianep Üniversitesi , Elektrik Elektronik Mühendisliği, 04-1989

ÜYELİKLER

1. IEEE
2. Elektrik Mühendiseri Odası
3. Türk İstatistik Derneği, Üye, 1995
4. National Geographic Society, Üye, 2000-2003

Bilimsel Dergilerin Yazı İnceleme Kurulu Üyelikleri (Advisory Bord, Editorial Board)
1. Fırat Üniv. Fen ve Müh. Bil. Dergisi (J. of Fırat Univ., Science and Eng.)
2. Çukurova Üniv., Müh. Mim. Fak. Dergisi (J. of Faculty of Eng. and Architecture)
3. Electrical and Electronic Engineering Dergisi, Editörler Komitesi (Scientific and Academic Pub.): Ekim. 2011-
4. Turkish Journal of Electrical Engineering and Computers, Editör: Haziran 2011-

Bilimsel Konferanslarda Üyelikler (Bilim, Danışma, Hakemlik, vb.)
1. ICCCI-2012, Hakemler Komitesi Başkanı: 10-12 Ocak 2012, www.siet.ac.in/iccci.
2. FEEB-2011Hakemler Kurulu Üyeliği: 5-7 Ekim 2011, http://web.firat.edu.tr/feeb/
3. FEEB-2011 Danışma Kurulu Üyeliği: 5-7 Ekim 2011, http://web.firat.edu.tr/feeb/
4. V. URSI-Türkiye’2010, Danışma Kurulu Üyeliği: 25-27 Ağustos 2010.
5. EMANET’2011, Danışma Kurulu Üyeliği 7-8 Ekim 2011.

İŞ TECRÜBELERİ

AKADEMİK ÜNVANLAR: ÖĞRETİM ÜYELİĞİ VE YARDIMCILIĞI

0. Haliç Üniv., Bilgisayar Müh. Böl. Profesör, Aralık 2010-Devam ediyor
1. Haliç Üniv., Elektrn. ve Haberleşme Müh. Böl. Profesör, Ekim 2009-Aralık 2010
2. Fatih Üniv., Elek.-Elektrn. Müh. Böl., Profesör, Eylül 2002-Ekim 2009
3. İnönü Üniv. Elek.-Elektrn. Müh. Böl., Profesör, Ekim 1994-Ağustos 2002
4. Gaziantep Üniv. Elekt.-Elektron. Müh. Böl., Profesör, Nisan 1989-Ekim 1994
5. Gaziantep Üniv. Elekt.-Elektron. Müh. Böl., Doçent, 1987-Nisan 1989
6. ODTÜ Gaziantep Üniv. Elekt.-Elektron. Müh. Böl., Doçent, Kasım 1983-1987; Y. Prof., Ekim 1976-Kasım 1983
7. ODTÜ Elektrik Müh. Böl., Y. Prof., Ocak 1976-Ekim 1976
8. ODTÜ Elektrik Müh. Böl., Öğr. Gör., Eylül 1974-Ocak 1976
9. ODTÜ Elektrik Müh. Böl., Asistan, Eylül 1971-Eylül 1974
10. ODTÜ Müh. Bilimleri Böl., Asistan, Aralık 1969-Eylül 1971
11. ODTÜ Fizik Böl., Öğrenci Asist., Kasım 1967-Haziran 1969
12. Fırat Üniv. Elekt.-Elektron. Müh. Böl., Kısmi Stat. Öğr. Üy. Kasım 1988-Haziran 1998
13. Çukurova Üniv. Elekt.-Elektron. Böl., Kısmi Stat. Öğr. Üy., Mart 1991- Haziran 1991

LABORATUVAR KURMA GELİŞTİRME:

1. Gaziantep Üniv. Müh. Fakültesi, 1976 (Gaziantep ODTÜ), Basic Circuit Laboratory, Elektrik-Elektronik Müh. Bölümü
2. İnönü Üniv. Müh. Fakültesi, 1993, Devre ve Elektronik Laboratuvarı, Elektrik-Elektronik Müh. Bölümü.
3. İnönü Üniv. Müh. Fakültesi, 1993, Elektrik Makinaları Laboratuvarı, Elektrik-Elektronik Müh. Bölümü.
4. Fatih Üniv. Müh. Fakültesi, 2002, Haberleşme Laboratuarı, Elektronik ve Haberleşme Müh. Bölümü.
5. Fatih Üniv. Müh. Fakültesi, 2002, Elektrik Makineları laboratuarı, Elektrik-Elektronik Müh. Bölümü.

BAZI KOMİTE VE KOMİSYON ÜYELİKLERİ:

1. Haliç Üniv., Yayın Kom. Başk., Ekim 2009-Şubat 2009
2. Haliç Üniv., Burs Kom. Başk., Ekim 2009-Şubat 2009
3. Haliç Üniv., BAP Kom. Başk., Ekim 2009-Şubat 2009
4. Haliç Üniv., Web Koordinatörü, Ekim 2009-Şubat 2009
5. Haliç Üniv., ADEKAG Kurulu Başk., Ekim 2009-Şubat 2009
6. Haliç Üniv., Özürlü Öğr. Birimi Başk., Ekim 2009-Şubat 2009
7. Haliç Üniv., AB ve Uluslararası İlişkiler Birimi Başk., Ekim 2009-Şubat 2010
8. Fatih Üniv., Yayın Kom. Üyesi, Ağustos 2006 – Eylül 2009
9. Fatih Üniv., Araştırma Fonu İzleme ve Değerlendirme Kom. Üyesi, Ocak 2003 – Eylül 2002
10. İnönü Üniv., Yurt Dışı Eğt. Gören Arş. Gör. İzleme ve Değer. Kom. Başk., Nisan 1994 – Mart 1999
11. İnönü Üniv., Araştırma Fonu Yönetim Kurulu Üyeliği, Mart 1997 – Ağustos 2002
12. İnönü Üniv., Üniversite Vakfı Denetleme Kurulu Üyesi, Haziran 1994 - Haziran 1997
13. İnönü Üniv., Üniversite Vakfı Yönetim Kurulu Üyesi Haziran, 1997 – Mart 1999
14. ODTÜ Gaziantep Müh. Fakültesi ( Gaziantep Üniv.), Araştırma Fonu Yönetim Kurulu Üyesi, Haziran 1990 - Şubat 1993
15. ODTÜ Gaziantep Müh. Fakültesi ( Gaziantep Üniv.), Yayın Komisyonu, 1976 - 1983
16. ODTÜ Gaziantep Müh. Fakültesi ( Gaziantep Üniv.), Doktora Komisyonu, 1979 - 1983
17. ODTÜ Gaziantep Müh. Fakültesi ( Gaziantep Üniv.), Disiplin Kurulu, 1978 - 1982
18. ODTÜ Gaziantep Müh. Fakültesi ( Gaziantep Üniv.), Staj Komisyonu, 1978 - 1982
19. ODTÜ Gaziantep Müh. Fakültesi ( Gaziantep Üniv.), Yurt Yönetim Kurulu , 1987 - 1989

YÖNETİCİLİK DENEYİMİ VE KURSLAR

1. Haliç Üniv., Bilgisayar Müh. Bölüm Başkanı, 03 Aralık 2010-Devam Ed.
2. Haliç Üniv., Rektör Yard., Ekim 2009- Şubat 2010
3. Haliç Üniv., Senato Üyesi (Rektör Yard.+Senato Üyesi) Ekim 2009-Şubat 2010
4. Haliç Üniv., Senato Üyesi (Müh. Fak. Temsilcisi) Şubat 2010-Devam Ed.
5. Haliç Üniv., Fakülte Kurulu Üyesi (Müh. Fak.), 16-02-2010-Devam Ed.
6. Haliç Üniv., Fakülte Yönetim Kurulu Üyesi (Müh. Fak.), 01-03-2010-Devam Ed.
7. Fatih Üniv., Senato Üyesi (Müh. Fak. Temsilcisi), 15.11.2002-31-09-2009
8. Fatih Üniv., Yönetim Kurulu Üyesi (Prof. Üye), 21.02.2003-21.02.2007
9. Fatih Üniv., Müh. Fak. Elektronik Müh.Böl. Bölüm Başkanı, 13.11.2002-31-09-2008
10. Fatih Üniv., Fakülte Kurulu Üyesi (Prof. Üye), 01.09.2002-23.02.2009
11. Fatih Üniv., Fakülte Yönetim Kurulu Üyesi (Prof. Üye), 01.02.2002-23.02.2009
12. Fatih Üniv., Fen Bilimleri Enst., Yönetim Kurulu Üyesi, 17.10.2002-21.02.2009
13. Fatih Üniv., Fen Bilimleri Enst., Enst. Kurulu Üyesi, 13.11.2002-31-09-2008
14. İnönü Üniv., Müh. Fak. Elektrik-Elektronik Müh.Böl. Bölüm Başkanı, 20.09.1999-19.05.20002
15. İnönü Üniv., Müh. Fak., Elektrik-Elektronik Müh.Böl., Devreler ve Sistemler Anabilim Dalı Başkanı, Ekim 1994-Ağustos 2002
16. İnönü Üniv., Müh. Fak. Dekanı, Mart 1996-Mart 1999
17. İnönü Üniv., Rektör Yardımcısı, 12.07.1996-06.08.1996
18. İnönü Üniv., Müh. Fak. Dekanı, Şubat 1993-Şubat 1996
19. İnönü Üniv., Müh. Fak., Yönetim Kurulu Üyesi (Prof. Üye), 08.12.1994-08.12.2000
20. İnönü Üniv., Müh. Fak., Fakülte Kurulu Üyesi (Prof. Üye), 05.12.1994-05.12.2000
21. Gaziantep Üniv., Ş. Urfa İlahiyat Fakültesi Yön.Kur.Üyesi, Ekim 1992- Aralık 1992
22. GaziantepÜniv., Eğitim Fakültesi Dekan V., Şubat 1990-Şubat 1993
23. Gaziantep Üniv., Üniversite Yönetim Kurulu Üyesi, Şubat 1990- Şubat 1993
24. Gaziantep Üniv., Senato Üyesi, Şubat 1990- Şubat 1993
25. Gaziantep Üniv., Fen Bilimleri Enst.Yön. Kur. Üyesi, Aralık 1989- Şubat 1993
26. ODTÜ Gaziantep (Gaziantep Üniv.) Müh. Fakültesi, Fakülte Yönetim Kurulu Üyesi (Prof.Üye), Eylül 1989- Şubat 1993
27. ODTÜ Gaziantep (Gaziantep Üniv.) Müh. Fakültesi, Fakülte Yönetim Kurulu Üyesi (Prof.Üye), Eylül 1989- Şubat 1993
28. Gaziantep Üniv. (ODTÜ Gaziantep) Elektrik-Elektronik Müh. Böl., lüm Başkanı Aralık 1988- Şubat 1993
29. ODTÜ Gaziantep (Gaziantep Üniv.) Müh. Fakültesi, Fakülte Yönetim Kurulu Üyesi (Doçent Üye ), Ekim 1984- Ekim 1987
30. ODTÜ Gaziantep Fizik Müh. Böl. Bşk. V., Ağustos 1984-Nisan 1985
31. ODTÜ Gaziantep (Gaziantep Üniv.) Müh. Fakültesi, Fakülte Kurulu Üyesi (Y. Doçent Tem.), 1983- Ekim 1984
32. Gaziantep Üniv. (ODTÜ Gaziantep) Elektrik-Elektronik Müh. Böl., Bölüm Başkan Yardımcısı, Aralık 1983- Nisan 1984
33. Gaziantep Üniv. (ODTÜ Gaziantep) Elektrik-Elektronik Müh. Böl., Devreler ve Sist. AD Başkanı, Ocak 1982- Şubat 1984
34. Gaziantep Üniv. (ODTÜ Gaziantep) Elektrik-Elektronik Müh. Böl., Bölüm Başkan Vekili Aralık 1981- Eylül 1982
35. Gaziantep Üniv. (ODTÜ Gaziantep) Elektrik-Elektronik Müh. Böl., Bölüm Başkan Yardımcısı, Nisan 1978- Aralık 1981

ARAŞTIRMA DENEYİMİ

BİLİMSEL ARAŞTIRMALARININ KONULARI:

1. Elektrik filtreleri, Anahtarlanmış kapasitör filtreleri
2. Elektrik devrelerinin ve sistemlerinin durum denklemleri
3. İçinde periyodik olarak açılıp kapanan anahtarlar bulunan devreler
4. Periyodik olarak değişen sistemler, N-yollu filtreler, Dur-geç süzgeçler, Özsalınımlı geçiş devreleri
5. Aktif elektrik devreleri ve ilk koşul problemi
6. Zamanla değişen lineer sistemler
7. Lineer olmayan sistemler
8. Lineer olmayan sistemlerin periyodik çözümleri
9. Güç elektroniği devrelerinin ve döner elektrik motorlarının periyodik olarak değişen sistemler olarak ele alınışı ve analizi
10. Mekanik, hidrolik, nömatik ve termal sistemlerin analizi
11. Tomografi sistemlerinde görüntü oluşturma algoritmaları
12. Korona olayı ve korona modelleri
13. Dielektriklerin yüksek gerilim altında delinme problemleri
14. Yüksek gradyantlı manyetik filtreler
12. Diferansiyel Taylor dönüşümü ile sistemlerin analizi.
13. Enerji iletim hatları
14. Matematiksel modelleme ve uygulamalı matematik

BİŞİMSEL ÇALIŞMALARINA YAPILAN ATIFLAR (TOPLAM 331 ATIF)

1. E. Imal, ”CDM based controller design for nonlinear heat exchanger process,” Turkish Journal of Electrical Engineering & Computer Sciences, vol.17, no. 2, pp. 143-161, 2009. / Citied to: S .E. Hamamcı, I. Kaya, and M. Köksal, “Improving performance for a class of processes using Coefficient Diagram Method,” Proc. of 9th Mediterranean Conf. on Control and Automation MED’01, Adaptive and PID Control TA1-A Dubrovnik, Crotia, June 27-29, 2001.
2. E. Imal, ”CDM based controller design for nonlinear heat exchanger process,” Turkish Journal of Electrical Engineering & Computer Sciences, vol.17, no. 2, pp. 143-161, 2009. / Citied to:S. E. Hamamcı, M. Koksal, and S. Manabe, ‘’On the control of some nonlinear systems with the coefficient diagram method,’’ Proc. of the Forh Assian Control Conf., pp.1791-1796, Suntec City, Singapore, Sept. 25-27, 2002.
3. E. Imal, ”CDM based controller design for nonlinear heat exchanger process,” Turkish Journal of Electrical Engineering & Computer Sciences, vol.17, no. 2, pp. 143-161, 2009. / Citied to: M. Koksal and S. E. Hamamci, "A program for the design of linear time invariant control systems: CDMCAD", Computer Applications in Engineering Education, vol. 12, no. 3, pp. 145-151, Sept. 2004.
4. I. Sarıtaş, A Özkan, and S Herdem, "The magnetic filter and systems controled by artificial meural nerwork,“ The 5th International Advanced Technology Symposium IATS’09, Karabuk, Turkey, 13-15 May, 2009. / Citied to: S. Herdem, T. Abbasov, and M. Köksal, ‘’Importance of the magnetic property of the particles captured in magnetic filters’’, Proc. of the 11th National Cong. of Electric-Electronic and Computer Eng., vol. 1, pp. 44-47, TMMOB Chamber of Electrical Engineers – Grand Cevahir Congress Center, Sisli-Istanbul, Sept. 22-25, 2005.
5. P. Gómez and F. A. Uribe,” The numerical Laplace transform: An accurate technique for analyzing electromagnetic transients on power system devices,” International Journal of Electrical Power and Energy, vol. 31, no. 2-3, pp. 116-123, Feb.-March 2009. / Citied to: M. S. Mamiş and M. Köksal, “Lightning surge analysis using nonuniform single-phase line model,” IEE Proc. Gener. Transm. Distrb., vol. 148, no. 1, pp. 85-90, Jan. 2001.
6. N. Bigdeli and M Haeri, “CDM-based design and performance evaluation of a robust AQM method for dynamic TCP,” Computer Communications, vol. 32, no. 1, pp. 213-229, Jan. 23, 2009. / Citied to: S. E. Hamamcı, M. Koksal, and S. Manabe, ‘’On the control of some nonlinear systems with the coefficient diagram method, ’’ Proc. of the Forh Asian Control Conf., pp.1791-1796, Suntec City, Singapore, Sept. 25-27, 2002.
7. S. H. Birkett, “Directed bondgraphs and integral matroids,” Simulation Modelling Practice and Theory, vol.17, no.1, pp. 50-68, Jan. 2009. / Citied to: M. Poyraz, Y. Demir, A.Gülten, and M. Köksal, "Analysis of switched-systems using the bond graph methods," J. Franklin Inst. vol. 336, no. 3, pp. 379-386, April 1, 1999.
8. R. Tuntas, Y. Demir, and M. Koksal, “A new approach for the analysis of the transient and steady state of piecewise-linear circuits by neural networks,” J. Circuits, Systems, and Computers (JCSC), vol. 17, no. 6, pp. 1091-1109, Dec. 2008. / Citied to: M. Köksal, A Computer Program for the General Solutions of Periodically Time-Varying Systems: MAINLN, METU, Gaziantep Eng. Fac. Elect. and Electrn. Eng. Dept., Circuits and Systems, Tech. Rep. no: GEEE CAS-84/2, Jan. 1984.
9. R. Tuntas, Y. Demir, and M. Koksal, “A new approach for the analysis of the transient and steady state of piecewise-linear circuits by neural networks,” J. Circuits, Systems, and Computers (JCSC), vol. 17, no. 6, pp. 1091-1109, Dec. 2008. / Citied to: M. Köksal and Y. Tokad, "On the Solution of linear circuits containing periodically operated switches," Proc. of the 1976 European Conf. on Circuit Theory and Design, vol. 1, pp. 77-82, Genoa, Italy, Sept. 7-10, 1976.
10. R. Tuntas, Y. Demir, and M. Koksal, “A new approach for the analysis of the transient and steady state of piecewise-linear circuits by neural networks,” J. Circuits, Systems, and Computers (JCSC), vol. 17, no. 6, pp. 1091-1109, Dec. 2008. / Citied to: Y. Demir and M. Köksal, ‘’State space suitable modelling of power semiconductors with ideal switches, resistors, constant voltage and current sources,’’ Electrical Engineering, vol. 86, no. 3, pp. 135-145, Feb. 19, 2004.
11. R. Tuntas, Y. Demir, and M. Koksal, “A new approach for the analysis of the transient and steady state of piecewise-linear circuits by neural networks,” J. Circuits, Systems, and Computers (JCSC), vol. 17, no. 6, pp. 1091-1109, Dec. 2008. / Citied to: M. Köksal and Y. Tokad, State-Space Formulation of Linear Circuits Containing Periodically Operated Switches, Scientific and Technical Research Council of Turkey, Marmara Research Inst., Gebze-Kocaeli, Electronic Research Unit, Report no: 2, Oct. 1975.
12. M. Koksal, M. Sagbas, and H. Sedef, “An electornically tunable oscillator using a single active device and two capacitors,” J. of Circuits, Systems, and Computers, vol. 17, no. 5, pp. 885-891, Oct. 2008. / Citied to: Y. Demir, M. Köksal, and S. Herdem, "State-space modeling of power semiconductors with ideal switches, resistors, constant voltage and current sources," Proc. of 5th Int. Conf. Electrimacs 1996, vol.1/9, pp. 97-102, Saint Nazarie, Sept. 17-19, 1996.
13. R. Tuntas, Y. Demir, and M. Koksal, “A new approach for the analysis of the transient and steady state of piecewise-linear circuits by neural networks,” J. Circuits, Systems, and Computers (JCSC), vol. 17, no. 6, pp. 1091-1109, Dec. 2008. / Citied to: M. Köksal, "A fast convergent method for the analysis of nonlinear systems with periodic excitations,"1984 IEEE Int. Symp. on Circuit and Systems Proc., vol. 3 of 3, pp. 1361-1364, Montreal, Canada, May 7-10, 1984.
14. R. Tuntas, Y. Demir, and M. Koksal, “A new approach for the analysis of the transient and steady state of piecewise-linear circuits by neural networks,” J. Circuits, Systems, and Computers (JCSC), vol. 17, no. 6, pp. 1091-1109, Dec. 2008. / Citied to: S. Herdem, M. Köksal, and Y. Demir, “Steady-state analysis of electrical systems with strongly nonlinear components," Proc. of XV. Symp. Electromagnetic Phenomena in Nonlinear Circuits, pp. 233-236, Liege, Belgium, Sept. 22-24, 1998.
15. S. Catal, “Solution of free vibration equations of beam on elastic soil by using differential transform method,” Applied Mathematical Modelling, vol. 32, no. 9, pp. 1744-1757, Sept. 2008. / Citied to: M. Köksal and S. Herdem, ”Analysis of nonlinear circuits by using differential Taylor transform,“ Computers & Electrical Eng., vol. 28, no. 6, pp. 513-525, Nov. 2002.
16. H. S. Yazdı, M. Pakdaman, and S. Effati, “Fuzzy Circuit Analysis,” International Journal of Applied Engineering Research ISSN 0973-4562, vol. 3, no. 8, pp. 1061–1071, 2008. / Citied to: M. Köksal and S. Herdem, ”Analysis of Nonlinear Circuits by Using Differential Taylor Transform,“ Computers & Electrical Eng., vol. 28, no. 6, pp. 513-525, Nov. 2002.
17. N. Garcia and E.Acha, “Transmission line model with frequency dependency and propagation effects: A model order reduction and state-space approach,” Power and Energy Society General Meeting - Conversion and Delivery of Electrical Energy in the 21st Century, 2008 IEEE, On page(s): 1-7, Publication Date: 20-24 July 2008. / Citied to: M. S. Mamiş and M. Köksal, "Solution of eigenproblems for state space transient analysis of transmission lines," Electric Power System Research, vol. 55, no.1, pp. 7-14, July 5, 2000.
18. A. E. Sorokin, “Charging of a conducting sphere moving in a weakly ionized gas under an arbitrarily oriented external uniform electric field,” Eur. Phys. J. D, vol. 47, pp. 83-105, April 2008. / Citied to: H. Z. Aliyev, M. Köksal, İ. Aksoy, and M. E. Yakıncı, “Charging and discharging of particles on the low-potential electrode under bipolar corona conditions,” J. Phys. D: Appl. Phys., vol. 31, pp. 1723-1727, 1998.
19. G. Romero, J. Felez, J. Maroto,and J. M. Mera, “Simulation of an Electrical Substation Using the Bond Graph Technique,” Computer Modeling and Simulation, 2008. UKSIM 2008. Tenth International Conference on, pp. 584-589,1-3 April 2008. / Citied to: M. Poyraz, Y. Demir, A. Gülten, and M. Köksal, "Analysis of switched-systems using the bond graph methods," J. Franklin Inst. vol. 336, no. 3, pp. 379-386, April 1, 1999.
20. Y. Yoshioka and T. Hanamoto, “Estimation of a multimass system using the LWTLS and a coefficient diagram for vibration-controller design,” IEEE Transactions on Industry Applications, vol. 44, no. 2, pp. 566-574, March-April 2008. / Citied to: S. E. Hamamcı and M. Köksal, “Robust control of a dc motor by Coefficient Diagram Method,” Proc. of 9th Mediterranean Conf. on Control and Automation MED’01, Drive Control WA2-B Dubrovnik, Crotia, June 27-29, 2001.
21. H. P. Chu and C. Y. Lo,”Application of the hybrid differential transform-finite difference method to nonlinear transient heat conduction problems ,” Numerical Heat Transfer. Part A Applications, Publisher: Taylor & Francis, Country of publication Great Britain, vol. 53 no. 3, pp. 295-307, 2008. / Citied to: M. Köksal and S. Herdem, ”Analysis of nonlinear circuits by using differential Taylor transform,“ Computers & Electrical Eng., vol. 28, no. 6, pp. 513-525, Nov. 2002.
22. M. Sagbas and M. Koksal, “Current-mode state-variable filter,” Frequenz, vol. 62, no. 1-2, pp. 37-42, Jan./Feb. 2008. / Citied to: M. Köksal and M. Sagbas, ‘’A versatile signal flow graph realization of a general transfer function by using CDBA,’’ Int. J. Electronics and Communications (AEÜ), vol. 61, no. 1, pp. 35-42, Jan. 2nd, 2007.
23. ????????????????????, “A review of bond graph theory and its application,” Mechanical Science And Technology For Aerospace Engineering, vol. 27, no. 1, pp. 72-77, 2008. / Citied to: Y. Demir, M. Poyraz, and M. Köksal, "Derivation of state and output equations for systems containing switches and a novel definition of a switch using the bond graph model," J. Franklin Inst., vol. 334B, no. 2, pp. 191-197, March 1997.
24. V. Cecchi, A Modeling Approach for Electric Power Transmission Lines In the Presence of Non-Fundamental Frequencies, Master of Science Thesis in Electrical Eng., Drexel University, Jan.2008. / Citied to: M. S. Mamiş and M. Köksal, "Remark on the lumped parameter modeling of transmission lines," Electric Machines and Power Systems, vol. 28, no. 6, pp. 565-575, 2000.
25. M. Koksal and M. Sagbas, “A versatile signal flow graph realization of a general current transfer function,” Int. J. Electronics and Communications (AEÜ), vol. 62, no. 1, pp. 33-40, 2008. / Cited to: M. Köksal and M. Sagbas, ‘’A versatile signal flow graph realization of a general transfer function by using CDBA,’’ Int. J. Electronics and Communications (AEÜ), vol. 61, no. 1, pp. 35-42, Jan. 2nd, 2007.
26. I. Saritas, I. A. Ozkan, and S. Herdem, “Design of a fuzzy expert system for magnetic filter performance according to magnetic field,” 5-th International Conference on Electrical and Electronics Engineering, ELCO’2007 emo.org.tr, vol. 2, pp. 401-405, Bursa-Turkey, 5-9 Dec. 2007. / Citied to: T. Abbasov, S Herdem, and M. Köksal, "Performance of high gradient magnetic filters with granular matrix," Separation Science and Technology, vol. 34, no. 2, pp. 263-276, Jan. 1, 1999.
27. I. Saritas, I. A. Ozkan, and S. Herdem, “Design of a fuzzy expert system for magnetic filter performance according to magnetic field,” 5-th International Conference on Electrical and Electronics Engineering, ELCO’2007 emo.org.tr, vol. 2, pp. 401-405, Bursa-Turkey, Dec. 5-9, 2007. / Citied to: T. Abbasov, M. Köksal, and S. Herdem, "Theory of high-gradient magnetic filter performance," IEEE Trans. on Magnetics, vol. 35, no. 4, pp. 2128-2132, July 1999.
28. I. Saritas, I. A. Ozkan, and S. Herdem, “Design of a fuzzy expert system for magnetic filter performance according to magnetic field,” 5-th International Conference on Electrical and Electronics Engineering, ELCO’2007 emo.org.tr, vol. 2, pp. 401-405, Bursa-Turkey, 5-9 Dec. 2007. / Citied to:S . Herdem, T. Abbasov, and M. Köksal, "Filtration model of high gradient magnetic filters with granular matrix," Powder Technology, vol. 106, no. 3, pp. 176-182, Dec. 6, 1999.
29. S. Thuengsripan, T. Suksri, A. Numsomran, V. Kongratana, and P. Roengruen,” Smith predictor design by CDM for temperature control system,” Control, Automation and Systems, 2007. ICCAS'07. International Conference on, On page(s): 1472-1477, Location: Seoul, ISBN: 978-89-950038-6-2, Publication Date: 17-20 Oct. 2007. / Citied to: S. E. Hamamcı, I. Kaya, and M. Köksal, “Improving performance for a class of processes using Coefficient Diagram Method,” Proc. of 9th Mediterranean Conf. on Control and Automation MED’01, Adaptive and PID Control TA1-A Dubrovnik, Crotia, June 27-29, 2001.
30. G. T. Alisoy and H. Z. Alisoy, “A boundary-value problem for dielectric spherical void in a homogeneous insulator by considering surface conductivity,” Journal of Electrostatics, 2007 – Elsevier, vol. 65, no. 10-11, pp. 639-645, Oct. 2007. / Citied to: H. Z. Aliyev, M. Köksal, İ. Aksoy, and M. E. Yakıncı, “Charging and discharging of particles on the low-potential electrode under bipolar corona conditions,” J. Phys. D:Appl. Phys., vol. 31, pp. 1723-1727, 1998.
31. P. Gómez-Zamoranoand P. Moreno-Villalobos, “Simplified method of characteristics for fast transient solution of frequency and space dependent transmission lines,” Transmission Lines Científica, Instituto Nacional Distrito Federal, Mexico, año/vol. 11, número 004, , pp. 159-167, octubre-diciembre 2007. / Citied to: M. S. Mamiş and M. Köksal, “Lightning surge analysis using nonuniform single-phase line model,” IEE Proc. Gener. Transm. Distrb., vol. 148, no. 1, pp. 85-90, Jan. 2001.
32. H. Karci and G. Tohumoglu, “Linear time-varying systems analysis in wavelet domain,” Electrical Engineering (Archiv fur Elektrotechnik), Springer Berlin / Heidelberg, ISSN0948-7921 (Print) 1432-0487 (Online) Issue, vol. 89, no. 8, Sept. 2007. / Citied to: . Tohumoğlu and M. Köksal, "Steady state analysis of periodically time-varying networks by new developments in the spectral domain," Int. J. Circuit Theory and Appl., vol. 24, pp. 519-528, 1996.
33. T. Abbasov and A. R. Bahadır, “Estimation of Particle Capture Zone Characteristics in Magnetic Filtration Processes,” Journal of Dispersion Science and Technology, vol. 28, no. 3, pp. 463-469, March 2007. / Citied to: M. Köksal, T. Abbasov, and S. Herdem, “Mathematical modeling of the magnetic filtration processes,” Int. J. of Appl. Electromagnetics and Mechanics, vol. 18, no. 4, pp. 227-234, Dec. 2003.
34. H. S. Yazdi and S. E. Hosseini, “A novel unsupervised neuro-fuzzy system applied to circuit analysis,” First Joint Congress on Fuzzy and Intelligent Systems, Ferdowsi University of Mashhad, Iran, 29-31 Aug 2007. / Citied to: M. Köksal and S. Herdem, ”Analysis of nonlinear circuits by using differential Taylor transform,“ Computers & Electrical Eng., vol. 28, no. 6, pp. 513-525, Nov. 2002.
35. P. G. Zamorano and F. A. U. Campos, “On the application of the numerical Laplace transform for accurate electromagnetic transient analysis,” Revista Mexicana De Fisica, vol. 53, no. 3, pp. 198–204, June 2007. / Citied to: M. S. Mamiş and M. Köksal, “Lightning surge analysis using nonuniform single-phase line model,” IEE Proc. Gener. Transm. Distrb., vol. 148, no. 1, pp. 85-90, Jan. 2001.
36. A. Eskandarpour, K. Sassa, Y. Bando, M. Okido, K. Iwai, and S. Asai, “Semi-continuous magnetic removal of phosphate using an iron oxide hydroxide adsorbent and regeneration of its adsorbent,” ISIJ International, vol. 47, no. 4, pp.563-567, April 2007. / Citied to: T. Abbasov, M. Köksal, and S. Herdem, "Theory of high-gradient magnetic filter performance," IEEE Trans. on Magnetics, vol. 35, no. 4, pp. 2128-2132, July 1999.
37. T. Abbasov and A. R. Bahadır, “Estimation of Particle Capture Zone Characteristics in Magnetic Filtration Processes,” Journal of Dispersion Science and Technology, vol. 28, no. 3, pp. 463-469, March 2007. / Citied to: T. Abbasov, M. Köksal, and S. Herdem, "Theory of high-gradient magnetic filter performance," IEEE Trans. on Magnetics, vol. 35, no. 4, pp. 2128-2132, July 1999.
38. T. Abbasov, “Magnetic filtration with magnetized granular beds: Basic principles and filter performance,” China Particuology, vol. 5, no. 1-2, pp. 71-83, Feb.-April 2007. / Citied to: T. Abbasov, M. Köksal, and S. Herdem, "Theory of high-gradient magnetic filter performance," IEEE Trans. on Magnetics, vol. 35, no. 4, pp. 2128-2132, July 1999.
39. S. Thuengsripan, T. Suksri, A. Numsomran, V. Kongratana, and P. Roengruen,” Smith predictor design by CDM for temperature control system,” Control, Automation and Systems, 2007. ICCAS'07. International Conference on, On page(s): 1472-1477, Location: Seoul, ISBN: 978-89-950038-6-2, Publication Date: 17-20 Oct. 2007. / Citied to: S. E. Hamamcı and M. Köksal, “Robust control of a dc motor by Coefficient Diagram Method,” Proc. of 9th Mediterranean Conf. on Control and Automation MED’01, Drive Control WA2-B Dubrovnik, Crotia, June 27-29, 2001.
40. A. Numsomran, T. Suksri, and M. Thumma, “Design of 2-DOF PI controller with decoupling for coupled-tank process,” Control, Automation and Systems, 2007. ICCAS'07- ieeexplore.ieee.org., International Conference on Control, Automation and Systems, Location: Seoul, On page(s): 339-344, Publication Date: 17-20 Oct. 2007. / Citied to: S. E. Hamamci and M. Koksal, ‘Robust Controller Design for TITO Processes with Coefficient Diagram Method,’ Proceedings of 2003 IEEE Conference on Control Applications, vol. 2 of 2, pp. 1431-1436, Istanbul, Turkey, June 23-25, 2003.
41. H. Z. Alisoy, G. T. Alisoy, A. Şahin, and C .Yeroglu, “The evaluations of the influence of surface conductivity to the energy of particles in discharge channel and interaction force in contact charging process,” Physics Letters A, 2006 – Elsevier, vol. 360, no. 1, pp. 14-21, 18 Dec. 2006. / Citied to: H. Z. Aliyev, M. Köksal, İ. Aksoy, and M. E. Yakıncı, “Charging and discharging of particles on the low-potential electrode under bipolar corona conditions,” J. Phys. D:Appl. Phys., vol. 31, pp. 1723-1727, 1998.
42. S. Catal, “Analysis of free vibration of beam on elastic soil using differential transform method ,” Structural Engineering and Mechanics, vol. 24, no. 1, pp. 51-62, 10/09/2006 / Citied to: M. Köksal and S. Herdem, ”Analysis of nonlinear circuits by using differential Taylor transform,“ Computers & Electrical Eng., vol. 28, no. 6, pp. 513-525, Nov. 2002.
43. Y. Hao, MAO Ze-Hui, and J. Bin, “Model-Based Fault Tolerant Control for Hybrid Dynamic Systems with Sensor Faults,” Acta Automatica Sinica, vol. 32, no. 5, pp. 680-685, Sept. 2006. / Citied to: Y. Demir, M. Poyraz, and M. Köksal, "Derivation of state and output equations for systems containing switches and a novel definition of a switch using the bond graph model," J. Franklin Inst., vol. 334B, no. 2, pp. 191-197, 1997.
44. M. Dávila, J. L. Naredo, P. Moreno, and J. A. Gutiérrez, “The effects of non-uniformities and frequency dependence of line parameters on electromagnetic surge propagation,” Int. J. of Electrical Power and Energy Systems– Elsevier, vol. 28, no. 3, pp. 151-157, March 2006. / Citied to: M. S. Mamiş and M. Köksal, "Transient analysis of nonuniform lossy transmission lines with frequency dependent parameters," Electric Power System Research, vol. 52, no. 3, pp. 223-228, Dec. 1, 1999.
45. M. Dávila, J. L. Naredo, P. Moreno, and J. A. Gutiérrez, “The effects of non-uniformities and frequency dependence of line parameters on electromagnetic surge propagation,” Int. J. of Electrical Power and Energy Systems– Elsevier, vol. 28, no. 3, pp. 151-157, March 2006. / Citied to: M. S. Mamiş and M. Köksal, “Lightning surge analysis using nonuniform single-phase line model,” IEE Proc. Gener. Transm. Distrb., vol. 148, no. 1, pp. 85-90, Jan. 2001.
46. M. Sarıkaya, T. Abbasov, and M. Erdemoğlu, “Some Aspects of Magnetic Filtration Theory for Removal of Fine Particles from Aqueous Suspensions,” J. of Dispersion Science and Technology, 2006 - informaworld.com, vol. 27, no. 2, pp.193-198,2006. / Citied to: S. Herdem, T. Abbasov, and M. Köksal, "Filtration model of high gradient magnetic filters with granular matrix," Powder Technology, vol. 106, no. 3, pp. 176-182, Dec. 6, 1999.
47. T. Sornchamni, J. E. Atwater, J. R. Akse, R. R. Wheeler, G. N. Jovanovic, “Magnetically assisted filtration for solid waste separation and concentration in microgravity and hypogravity,” Ind. Eng. Chem. Res., vol.44, no. 24, pp. 9199–9207 (DOI: 10.1021/ie0501374), Oct. 2005. / Citied to: S. Herdem, T. Abbasov, and M. Köksal, "Filtration model of high gradient magnetic filters with granular matrix," Powder Technology, vol. 106, no. 3, pp. 176-182, Dec. 6, 1999.
48. H.-S. Kim, D.-K. Kim, and H. Rho, “The study of the system response time and overshoot control using characteristic ratio assignment,” Journal of Control, Automation, and Systems Engineering , vol. 11, no.10, pp. 670-679, Oct. 2005. / Citied to: S. E. Hamamcı, M. Koksal, and S. Manabe, ‘’Robust position control of a radar antenna with the coefficient diagram method,’’ Proc. of the Forh Asian Control Conf., pp.1785-1790, Suntec City, Singapore, Sept. 25-27, 2002.
49. G. Friedman and B. Yellen, “Magnetic separation, manipulation and assembly of solid phase in fluids,” Current Opinion in Colloid & Interface Science, vol. 10, no. 3-4, pp. 158-166, Oct. 2005. / Citied to: S. Herdem, T. Abbasov, and M. Köksal, “Modeling of the buildup process of the particles in pores of high-gradient magnetic filters using the Fokker-Plank equation,” J. Physics-D: Appl. Physics, vol. 32, pp. 3146-3150, 1999.
50. H. Karci and G. Tohumoğlu, “Zamanla değişen lineer sistemlerin dalgacik analizi ile çözümü,” Proc. of the 11th National Cong. of Electric-Electronic and Computer Eng., Grand Cevahir Hotel, Okmeydani / İstanbul-Turkey, pp. 336-340,Sept. 22-25, 2005. / Citied to: G. Tohumoğlu and M. Köksal, "Steady state analysis of periodically time-varying networks by new developments in the spectral domain," Int. J. Circuit Theory and Appl., vol. 24, pp. 519-528, 1996.
51. S. Herdem, T. Abbasov, and M. Köksal, ‘’Importance of the magnetic property of the particles captured in magnetic filters (Manyetik filtrelerde tutlan parçacıkların manyetik alınganlığının önemi),’’ Proc. of the 11th National Cong. of Electric-Electronic and Computer Eng., vol. 1, pp. 44-47, TMMOB Chamber of Electrical Engineers – Grand Cevahir Congress Center, Sisli-Istanbul, Sept. 22-25, 2005. / Citied to: T. Abbasov, M. Köksal, and S. Herdem, "Theory of high-gradient magnetic filter performance," IEEE Trans. on Magnetics, vol. 35, no. 4, pp. 2128-2132, July 1999.
52. S. Herdem, T. Abbasov, and M. Köksal, ‘’Importance of the magnetic property of the particles captured in magnetic filters (Manayetik filtrelerde tutlan parçacıkların manyetik alınganlığının önemi),” Proc. of the 11th National Cong. of Electric-Electronic and Computer Eng., vol. 1, pp. 44-47, TMMOB Chamber of Electrical Engineers – Grand Cevahir Congress Center, Sisli-Istanbul, Sept. 22-25, 2005. / Citied to: T. Abbasov, S Herdem, and M. Köksal, "Performance of high gradient magnetic filters with granular matrix," Separation Science and Technology, vol. 34, no. 2, pp. 263-276, Jan. 1, 1999.
53. S. Herdem, T. Abbasov, and M. Köksal, ‘’Importance of the magnetic property of the particles captured in magnetic filters (Manayetik filtrelerde tutlan parçacıkların manyetik alınganlığının önemi),’’ Proc. of the 11th National Cong. of Electric-Electronic and Computer Eng., vol. 1, pp. 44-47, TMMOB Chamber of Electrical Engineers – Grand Cevahir Congress Center, Sisli-Istanbul, Sept. 22-25, 2005. / Citied to: S. Herdem, T. Abbasov, and M. Köksal, "Filtration model of high gradient magnetic filters with granular matrix," Powder Technology, vol. 106, no. 3, pp. 176-182, Dec. 6, 1999.
54. M. S. Mamiş and M. E. Meral, “State-space modeling and analysis of fault arcs ,” Electric Power Systems Research, paper no: EPSR-2168, vol. 76, no. 1-3, pp. 46-51, Sept. 2005. DOI: 10.1016/j.epsr.2005.04.002. / Citied to: M. S. Mamiş and M. Köksal, "Solution of eigenproblems for state space transient analysis of transmission lines," Electric Power System Research, vol. 55, no.1, pp. 7-14, July 5, 2000.
55. A. Ditsch, S. Lindenmann, P. E. Laibinis, D. I. C. Wang, and T. A. Hatton, “High-gradient magnetic separation of magnetic nanoclusters,” Industrial and Engineering Chemistry Research, vol. 44, no. 17, pp. 6824-6836, July 13, 2005. / Citied to: T. Abbasov, M. Köksal, and S. Herdem, "Theory of high-gradient magnetic filter performance," IEEE Trans. on Magnetics, vol. 35, no. 4, pp. 2128-2132, July 1999.
56. A. Ditsch, S. Lindenmann, P. E. Laibinis, D. I. C. Wang, and T. A. Hatton, “High-gradient magnetic separation of magnetic nanoclusters,” Industrial and Engineering Chemistry Research, vol. 44, no. 17, pp. 6824-6836, July 13, 2005. / Citied to: S. Herdem, T. Abbasov, and M. Köksal, “Modeling of the buildup process of the particles in pores of high-gradient magnetic filters using the Fokker-Plank equation,” J. Physics-D: Appl. Physics, vol. 32, pp. 3146-3150, 1999.
57. A .Kaygusuz, M. S. Mamiş, and E. Akın, “s-Domain analysis of lightning surges in three-phase systems using nonuniform single-phase line model,” - Electrical Engineering (Archiv fur Elektrotechnik), 2005 – Springer, vol. 87, no. 5, pp. 253-259, July 2005. / Citied to: M. S. Mamiş and M. Köksal, “Computation of lightning over voltages using nonuniform, single phase line model,” Proc. of IPST’99, Int. Conf. on Power System Transients, pp. 405-409, Budapest, Hungary, June 20-24, 1999.
58. A .Kaygusuz, M. S. Mamiş, and E. Akın, “s-Domain analysis of lightning surges in three-phase systems using nonuniform single-phase line model,” - Electrical Engineering (Archiv fur Elektrotechnik), 2005 – Springer, vol. 87, no. 5, pp. 253-259, July 2005. / Citied to: M. S. Mamiş and M. Köksal, “Lightning surge analysis using nonuniform single-phase line model,” IEE Proc. Gener. Transm. Distrb., vol. 148, no. 1, pp. 85-90, Jan. 2001.
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60. A .Kaygusuz, M. S. Mamiş, and E. Akın, “s-Domain analysis of lightning surges in three-phase systems using nonuniform single-phase line model,” - Electrical Engineering (Archiv fur Elektrotechnik), 2005 – Springer, vol. 87, no. 5, pp. 253-259, July 2005. / Citied to: M. S. Mamiş and M. Köksal, "Transient analysis of nonuniform lossy transmission lines with frequency dependent parameters," Electric Power System Research, vol. 52, no. 3, pp. 223-228, Dec. 1, 1999.
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62. G. T. Alisoy, H. Z. Alisoy, and M. Koseoglu, “Calculation of electrical field of spherical and cylindrical gas voids in dielectrics by taking surface conductivity into consideration,” COMPEL: The International Journal for Computation and Mathematics in Electrical and Electronic Engineering, vol. 24, no. 4, pp. 1152-1163, 2005. / Citied to: H. Z. Aliyev, M. Köksal, İ. Aksoy, and M. E. Yakıncı, “Charging and discharging of particles on the low-potential electrode under bipolar corona conditions,” J. Phys. D:Appl. Phys., vol. 31, pp. 1723-1727, 1998.
63. S. Herdem, “Influence of the magnetic susceptibility of the particles on the magnetic filter performance,” Int. J. of Applied Electromagnetics and Mechanics, vol. 22, no. 3-4, pp. 189-197, June 2005. / Citied to: S. Herdem, T. Abbasov, and M. Köksal, "Filtration model of high gradient magnetic filters with granular matrix," Powder Technology, vol. 106, no. 3, pp. 176-182, Dec. 6, 1999.
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66. U. O. Häfeli, M. A. Lobedann, J. Steingroewer, L. R. Moore,…”Optical method for measurement of magnetophoretic mobility of individual magnetic microspheres in defined magnetic field,” Journal of Magnetism and Magnetic Materials, vol. 293, no. 1, pp. 224-239, May 2005. / Citied to: T. Abbasov, S. Herdem, and M. Köksal, "Particle capture in axial magnetic filters with power law flow model, J. Phys. D: Appl. Phys., vol. 32, pp. 1097-1103, 1999.
67. T. Abbasov and A. R. Bahadır, “The investigation of the transient regimes in the nonlinear systems by the generalized classica method,” Mathematical Problems in Engineering, vol. 5, pp. 503-519, June 2005. / Cited to: T. Abbasov, S. Herdem, and M. Köksal, “Modeling of distributed parameter nonlinear systems by differential Taylor method,” Control and Cybernetics, vol. 28, no. 2, pp. 259-267, 1999.
68. S. E. Hamamci, “A robust polynomial-based control for stable processes with time delay,” Electrical Engineering (Archiv fur Elektrotechnik), vol.87, no. 3, pp. 163-172, April 2005. / Citied to: S. E. Hamamcı, I. Kaya, and M. Köksal, “Improving performance for a class of processes using Coefficient Diagram Method,” Proc. of 9th Mediterranean Conf. on Control and Automation MED’01, Adaptive and PID Control TA1-A Dubrovnik, Crotia, June 27-29, 2001.
69. J. A. R. Macias, A. G. Exposito, and A. B. Soler, “A comparison of techniques for state-space transient analysis of transmission lines,” IEEE Transactions on Power Delivery, vol. 20, no. 2, Part 1, pp. 894-903, April 2005. DOI: 10.1109/TPWRD.2005.844271. / Citied to: M. S. Mamiş and M. Köksal, "Solution of eigenproblems for state space transient analysis of transmission lines," Electric Power System Research, vol. 55, no.1, pp. 7-14, July 5, 2000.
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77. A. C. Umarikar and L. Umanand, “Modelling of switched mode power converters using bond graph,” Electric Power Applications, IEE Proceedings-, 2005 - ieeexplore.ieee.org, vol. 152, no. 1, pp. 51-60, 22-02-2005. / Citied to: Y. Demir, M. Poyraz, and M. Köksal, "Derivation of state and output equations for systems containing switches and a novel definition of a switch using the bond graph model," J. Franklin Inst., vol. 334B, no. 2, pp. 191-197, 1997.
78. F. Babick, Schallspektroskopische Charakterisierung von submikronen Emulsionen, Dresden, TU Dresden, 2005 URN (NBN) : urn:nbn:de:swb:14-1112809488055-07176, pp. 1-174, Feb. 14, 2005. / Citied to: T. Abbasov, S. Herdem, and M. Köksal, "Particle capture in axial magnetic filters with power law flow model, J. Phys. D: Appl. Phys., vol. 32, pp. 1097-1103, 1999.
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80. H. Okada, K. Mitsuhashi, T. Ohara, E. R. Whitby, and H. Wada, “Computational Fluid Dynamics Simulation of High Gradient Magnetic Separation,” Separation Science and Technology, vol. 40, no. 7, pp. 1567-1584, May 2005. / Citied to: T. Abbasov, S. Herdem, and M. Köksal, "Particle capture in axial magnetic filters with power law flow model, J. Phys. D: Appl. Phys., vol. 32, pp. 1097-1103, 1999.
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82. H. Okada, K. Mitsuhashi, T. Ohara, E. R. Whitby, and H. Wada, “Computational Fluid Dynamics Simulation of High Gradient Magnetic Separation,” Separation Science and Technology, vol. 40, no. 7, pp. 1567-1584, May 2005. / Citied to: S. Herdem, T. Abbasov, and M. Köksal, “Modeling of the buildup process of the particles in pores of high-gradient magnetic filters using the Fokker-Plank equation,” J. Physics-D: Appl. Physics, vol. 32, pp. 3146-3150, 1999.
83. S. E. Hamamcı, “ Controller design for integral systemns with the cefficient diagram method: İntegratörlü sistemler için Katsayı Diyagram Metodu ile kontrolör tasarımı,” J. of Istanbul Technical University / d Eng., itu.edu.tr , vol. 3, no. 6, pp. 3-12, Dec. 2004. / Citied to: S. E. Hamamcı, M. Koksal, and S. Manabe, ‘’Robust position control of a radar antenna with the coefficient diagram method,’’ Proc. of the Forh Assian Control Conf., pp.1785-1790, Suntec City, Singapore, Sept. 25-27, 2002.
84. A. Künkül and T. Abbasov, “Removal of corrosion products from viscous aqueous suspensions by magnetic filtration,” Powder Technology, vol.149, no. 1, pp. 23-28, Nov. 2004. / Citied to: T. Abbasov, M. Köksal, and S. Herdem, "Theory of high-gradient magnetic filter performance," IEEE Trans. on Magnetics, vol. 35, no. 4, pp. 2128-2132, July 1999.
85. N. Garcia and E. Acha, “Periodic steady-state analysis of large-scale electric systems using Poincare map and parallel …” IEEE Transactions on Power Systems, vol. 19, no. 4, pp. 1784-1793, Nov. 2004. / Citied to: M. S. Mamiş and M. Köksal, "Solution of eigenproblems for state space transient analysis of transmission lines," Electric Power System Research, vol. 55, no.1, pp. 7-14, July 5, 2000.
86. A. Ramirez, P. Gomez, P. Moreno, and A. Gutierrez, ”Frequency domain analysis of electromagnetic transients through the numerical Laplace transforms,” Power Engineering Society General Meeting, IEEE, 2004, Denver, CO, ISBN: 0-7803-8465-2, INSPEC Acc. No.: 8370504, Dig. Obj. Identifier: 10.1109/PES.2004.1373022, vol. 1, pp. 1136-1139, Oct. 1, 2010. / Citied to: M. S. Mamiş and M. Köksal, “Lightning surge analysis using nonuniform single-phase line model,” IEE Proc. Gener. Transm. Distrb., vol. 148, no. 1, pp. 85-90, Jan. 2001.
87. H. Z. Alisoy, G. T. Alisoy, S. E. Hamamci, and S .E. Koseoglu, ” Combined kinetic charging of particles on the precipitating electrode in a corona field,” Journal of Physics D: Applied Physics, vol. 37, no. 10, pp. 1459-1466, May 21, 2004. / Citied to: H. Z. Aliyev, M. Köksal, İ. Aksoy, and M. E. Yakıncı, “Charging and discharging of particles on the low-potential electrode under bipolar corona conditions,” J. Phys. D:Appl. Phys., vol. 31, pp. 1723-1727, 1998.
88. Y. Demir and M. Köksal, ‘’State space suitable modelling of power semiconductors with ideal switches, resistors, constant voltage and current sources,’’ Electrical Engineering, vol. 86, no. 3, pp. 135-145, Feb. 19, 2004. / Citied to: M. Köksal, A Computer Program for the General Solutions of Periodically Time-Varying Systems: MAINLN, METU, Gaziantep Eng. Fac. Elect. and Electrn. Eng. Dept., Circuits and Systems, Tech. Rep. no: GEEE CAS-84/2, Jan. 1984.
89. Y. Demir and M. Köksal, ‘’State space suitable modelling of power semiconductors with ideal switches, resistors, constant voltage and current sources,’’ Electrical Engineering, vol. 86, no. 3, pp. 135-145, Feb. 19, 2004. / Citied to: S. Herdem and M. Köksal, “A fast algorithm to compute the steady-state solution of nonlinear circuits by piecewise linearization,” Computers and Electrical Eng., vol. 28, no. 2, pp. 91-101, March 2002.
90. Y. Demir and M. Köksal, ‘’State space suitable modelling of power semiconductors with ideal switches, resistors, constant voltage and current sources,’’ Electrical Engineering, vol. 86, no. 3, pp. 135-145, Feb. 19, 2004. / Citied to: M. Köksal and Y. Tokad, "State-space formulation of linear circuits containing periodically operated switches,” Circuit Theory and Applications, vol. 5, pp. 155-170, April 1977.
91. Y. Demir and M. Köksal, ‘’State space suitable modelling of power semiconductors with ideal switches, resistors, constant voltage and current sources,’’ Electrical Engineering, vol. 86, no. 3, pp. 135-145, Feb. 19, 2004. / Citied to: E. Türkbeyler and M. Köksal, "Periodic steady-state solutions of power electronic circuits," Proc. of Int. AMSE Conf. on Modeling and Simulation, vol. 2D, pp. 93-104, Istanbul, Turkey, June 29-July 1, 1988.
92. Y. Demir and M. Köksal, ‘’State space suitable modelling of power semiconductors with ideal switches, resistors, constant voltage and current sources,’’ Electrical Engineering, vol. 86, no. 3, pp. 135-145, Feb. 19, 2004. / Citied to: M. Köksal and Y. Tokad, "On the Solution of linear circuits containing periodically operated switches," Proc. of the 1976 European Conf. on Circuit Theory and Design, vol. 1, pp. 77-82, Genoa, Italy, Sept. 7-10, 1976.
93. Y. Demir and M. Köksal, ‘’State space suitable modelling of power semiconductors with ideal switches, resistors, constant voltage and current sources,’’ Electrical Engineering, vol. 86, no. 3, pp. 135-145, Feb. 19, 2004. / Citied to: M. Köksal, "A fast convergent method for the analysis of nonlinear systems with periodic excitations,"1984 IEEE Int. Symp. on Circuit and Systems Proc., vol. 3 of 3, pp. 1361-1364, Montreal, Canada, May 7-10, 1984.
94. A. Künkül, A. Ekmekyapar, C. Akmil, and T. Abbasov, “,Effect of Operating Parameters on Magnetic Filtration Processes,” Industrial and Engineerng Chemical Research, vol. 43, no. 1, pp 161–165,(DOI: 10.1021/ie030444e, Pub. Date (Web): December 10, 2003), 2004. / Citied to: T. Abbasov, M. Köksal, and S. Herdem, "Theory of high-gradient magnetic filter performance," IEEE Trans. on Magnetics, vol. 35, no. 4, pp. 2128-2132, July 1999.
95. K. Avci, and A. Nacaroğlu, “Computation of noise in switched capacitor networks due to the random fluctuation of the switching instants," - Re - ikss.org., Proceedings of 1st International Conference on Informatics, vol.1, no.2, pp.76-79, Cesme, Turkey, 2004. / Citied to: A. Nacaroğlu and M. Köksal, "A new feasible method for the design of stray insensitive optimum switched capacitor networks," Int. J. Circuit Theory and Appl., vol. 21, pp. 343-350, 1993.
96. K. Avci, and A. Nacaroğlu, “Computation of noise in switched capacitor networks due to the random fluctuation of the switching instants," - Re - ikss.org., Proceedings of 1st International Conference on Informatics, vol.1, no.2, pp.76-79, Cesme, Turkey, 2004. / Citied to: A. Nacaroğlu and M. Köksal, "Analysis of the effect of periodic fluctuations of switching instants on the transfer characteristics of switched capacitor networks," Int. J. Circuit Theory and Appl., vol. 22, pp.15-24, 1994.
97. A. Gülten and M. Türk, “Examination of chaotic behaviours using bond graph model,” Journal of the Franklin Institute, vol. 340, no. 6-7, pp. 415-422, Dec. 2003. / Citied to: M. Köksal, "A fast convergent method for the analysis of nonlinear systems with periodic excitations,"1984 IEEE Int. Symp. on Circuit and Systems Proc., vol. 3 of 3, pp. 1361-1364, Montreal, Canada, May 7-10, 1984.
98. M. Köksal, T. Abbasov, and S. Herdem, “Mathematical modeling of the magnetic filtration processes,” Int. J. of Appl. Electromagnetics and Mechanics, vol. 18, no. 4, pp. 227-234, Dec. 2003. / Citied to: S. Herdem, T. Abbasov, and M. Köksal, "Filtration model of high gradient magnetic filters with granular matrix," Powder Technology, vol. 106, no. 3, pp. 176-182, Dec. 6, 1999.
99. M. Köksal, T. Abbasov, and S. Herdem, “Mathematical modeling of the magnetic filtration processes,” Int. J. of Appl. Electromagnetics and Mechanics, vol. 18, no. 4, pp. 227-234, Dec. 2003. / Citied to: T. Abbasov, M. Köksal, and S. Herdem, "Theory of high-gradient magnetic filter performance," IEEE Trans. on Magnetics, vol. 35, no. 4, pp. 2128-2132, July 1999.
100. I. Kaya, “Autotuning of a new PI-PD Smith predictor based on time domain specifications,” ISA Transactions, vol. 42, no. 4, pp. 559-575, Oct. 2003. / Citied to: S. E. Hamamcı, I. Kaya, and M. Köksal, “Improving performance for a class of processes using Coefficient Diagram Method,” Proc. of 9th Mediterranean Conf. on Control and Automation MED’01, Adaptive and PID Control TA1-A Dubrovnik, Crotia, June 27-29, 2001.
101. M. S. Mamis, “State-Space Transient Analysis of Single-Phase Transmission Lines with Corona,” International Conference on Power Systems Transients – IPST 2003 in New Orleans, Louisiana, USA, 28 Sept.–2 Oct. 2003. / Citied to: M. S. Mamiş and M. Köksal, "Remark on the lumped parameter modeling of transmission lines," Electric Machines and Power Systems, vol. 28, no. 6, pp. 565-575, 2000.
102. S. Herdem, T. Abbasov, and M. Köksal, ‘’Analysis of nonlinear electrical circuits by using DT mehtod’’, Proc. of the 10th National Cong. of Electric Electronic and Computer Eng., vol. 2, pp. 271-274, TMMOB Chamber of Electrical Engineers – Lutfi Kırdar Cong. Center, Istanbul, Sept. 18-21, 2003. / Citied to: M. Köksal and S. Herdem, ”Analysis of nonlinear circuits by using differential Taylor transform,“ Computers & Electrical Eng., vol. 28, no. 6, pp. 513-525, Nov. 2002.
103. A. Gülten and M. Türk, “Examination of chaotic behaviours using bond graph model,” Journal of the Franklin Institute, 2003 – Elsevier, vol. 340, no. 6-7, pp. 415-422, Dec. 2003. / Citied to: Y.Demir, M. Poyraz, and M. Köksal, "Derivation of state and output equations for systems containing switches and a novel definition of a switch using the bond graph model," J. Franklin Inst., vol. 334B, no. 2, pp. 191-197, 1997.
104. A. Gülten and M. Türk, “Examination of chaotic behaviours using bond graph model,” Journal of the Franklin Institute, 2003 – Elsevier, vol. 340, no. 6-7, pp. 415-422, Dec. 2003. / Citied to: M. Poyraz, Y. Demir, A. Gülten, and M. Köksal, "Analysis of switched-systems using the bond graph methods," J. Franklin Inst. vol. 336, no. 3, pp. 379-386, April 1, 1999.
105. D. Kim, H. Kim and W. Choi, “A new design method for transient response control,” Proc. of SICE 2003 Annual Conference -ieeexplore.ieee.org,, vol. 2, pp. 2255-2260, 4-6 Aug. 2003. / Citied to: S. E. Hamamcı, M. Koksal, and S. Manabe, ‘’Robust position control of a radar antenna with the coefficient diagram method,’’ Proc. of the Forh Assian Control Conf., pp.1785-1790, Suntec City, Singapore, Sept. 25-27, 2002.
106. F. Yuan and A. Opal, “Computer methods for switched circuits,” Circuits and Systems I: Fundamental Theory and Applications, vol. 50, no. 8, pp.1013-1024, Aug. 2003. / Citied to: M. Köksal, "A fast convergent method for the analysis of nonlinear systems with periodic excitations,"1984 IEEE Int. Symp. on Circuit and Systems Proc., vol. 3 of 3, pp. 1361-1364, Montreal, Canada, May 7-10, 1984.
107. F. Yuan and A. Opal, “Computer methods for switched circuits,” Circuits and Systems I: Fundamental Theory and Applications, vol. 50, no. 8, pp.1013-1024, Aug. 2003. / Citied to: M. Poyraz, Y. Demir, A. Gülten, and M. Köksal, "Analysis of switched-systems using the bond graph methods," J. Franklin Inst. vol. 336, no. 3, pp. 379-386, April 1, 1999.
108. F. Yuan and A. Opal, “Computer methods for switched circuits,” Circuits and Systems I: Fundamental Theory and Applications, vol. 50, no. 8, pp.1013-1024, Aug. 2003. / Citied to: Y. Demir and M. Köksal, ‘’State space suitable modelling of power semiconductors with ideal switches, resistors, constant voltage and current sources,’’ Electrical Engineering, vol. 86, no. 3, pp. 135-145, Feb. 19, 2004.
109. F. Yuan and A. Opal, “Computer methods for switched circuits,” Circuits and Systems I: Fundamental Theory and Applications, vol. 50, no. 8, pp.1013-1024, Aug. 2003. Citied to: Y.Demir, M. Poyraz, and M. Köksal, "Derivation of state and output equations for systems containing switches and a novel definition of a switch using the bond graph model," J. Franklin Inst., vol. 334B, no. 2, pp. 191-197, 1997.
110. F. Yuan and A. Opal, “Computer methods for switched circuits,” Circuits and Systems I: Fundamental Theory and Applications, vol. 50, no. 8, pp.1013-1024, Aug. 2003. / Citied to: M. Köksal and Y. Tokad, "State-space formulation of linear circuits containing periodically operated switches,” Circuit Theory and Applications, vol. 5, pp. 155-170, April 1977.
111. I. Kaya, “Obtaining controller parameters for a new PI-PD Smith predictor using autotuning,” Journal of Process Control, vol.13, no. 5, pp. 465-472, Aug. 2003. / Citied to: S. E. Hamamcı, I. Kaya, and M. Köksal, “Improving performance for a class of processes using Coefficient Diagram Method,” Proc. of 9th Mediterranean Conf. on Control and Automation MED’01, Adaptive and PID Control TA1-A Dubrovnik, Crotia, June 27-29, 2001.
112. F. Yuan and A. Opal, “Computer methods for switched circuits,” Circuits and Systems I: Fundamental Theory and Applications, vol. 50, no. 8, pp.1013-1024, Aug. 2003. / Citied to: Y. Demir, M. Köksal, and S. Herdem, "State-space modeling of power semiconductors with ideal switches, resistors, constant voltage and current sources," Proc. of 5th Int. Conf. Electrimacs 1996, vol.1/9, pp. 97-102, Saint Nazarie, Sept. 17-19, 1996.
113. S. Herdem, and M. S. Mamiş, “Computation of corona effects in transmission lines using state-space techniques ”, Computers & Electrical Engineering, vol. 29/5, pp. 603-611, July 2003. Article Number: PII S0045-7906(01)00052-0, DOI: 10.1016/S0045-7906(01)00052-0. / Citied to: M. Köksal, Brute-Force Solution of Periodically Excited Nonlinear State Equations by Runge-Kutta Method, Gaziantep Univ. Electrical-Electronics Eng. Dept., Circuits and Systems, Tech. Rep. no: EEE/CAS-92/1 Dec. 1992.
114. S. Herdem, and M. S. Mamiş, “Computation of corona effects in transmission lines using state-space techniques ”, Computers & Electrical Engineering, vol. 29/5, pp. 603-611, July 2003. Article Number: PII S0045-7906(01)00052-0, DOI: 10.1016/S0045-7906(01)00052-0. / Citied to: M. Köksal and S. Herdem, "Ordinary differential equations with strong nonlinearities and their numerical solutions with abrupt changes," Appl. Mathematics and Computation, vol. 119, no. 2-3, pp. 249-264, April 15, 2001.
115. A. Semlyen, A. I. Ramirez, R. Iravani, “Modeling nonuniform transmission lines for time domain simulation of electromagnetic transients”, IEEE Transactions on Power Delivery, vol.18, no.3, pp. 968-974, July 2003. / Citied to: M. S. Mamiş and M. Köksal, “Lightning surge analysis using nonuniform single-phase line model,” IEE Proc. Gener. Transm. Distrb., vol. 148, no. 1, pp. 85-90, Jan. 2001.
116. S. Herdem, and M. S. Mamiş, “Computation of corona effects in transmission lines using state-space techniques ”, Computers & Electrical Engineering, vol. 29/5, pp. 603-611, July 2003. Article Number: PII S0045-7906(01)00052-0, DOI: 10.1016/S0045-7906(01)00052-0. / Citied to: M. S. Mamiş and M. Köksal, "Remark on the lumped parameter modeling of transmission lines," Electric Machines and Power Systems, vol. 28, no. 6, pp. 565-575, 2000.
117. S. Herdem, and M. S. Mamiş, “Computation of corona effects in transmission lines using state-space techniques ”, Computers & Electrical Engineering, vol. 29/5, pp. 603-611, July 2003. Article Number: PII S0045-7906(01)00052-0, DOI: 10.1016/S0045-7906(01)00052-0. / Cited to:M. Köksal, M.S. Mamiş, and H.Z. Aliyev, “A new simulation model for corona discharge,” Int. J. Appl. Mathematics, vol. 1, no. 5, pp. 499-509, 1999.
118. S. Herdem and M. S. Mamiş, “Computation of corona effects in transmission lines using state-space techniques ”, Computers & Electrical Engineering, vol. 29/5, pp. 603-611, July 2003. Article Number: PII S0045-7906(01)00052-0, DOI: 10.1016/S0045-7906(01)00052-0. / Citied to: S. Herdem, M. S. Mamiş, and M. Köksal, “Computation of corona effects in power transmission systems," Proc. of 9th International Symp. on SMC (System Modeling Control), p. 32, Zakopane, Poland, April 27 - May 1, 1998.
119. S. Herdem and M. S. Mamiş, “Computation of corona effects in transmission lines using state-space techniques ”, Computers & Electrical Engineering, vol. 29/5, pp. 603-611, July 2003. Article Number: PII S0045-7906(01)00052-0, DOI: 10.1016/S0045-7906(01)00052-0. / Citied to: Y. Demir, M. Köksal, and S. Herdem, "State-space modeling of power semiconductors with ideal switches, resistors, constant voltage and current sources," Proc. of 5th Int. Conf. Electrimacs 1996, vol.1/9, pp. 97-102, Saint Nazarie, Sept. 17-19, 1996.
120. C. Weir and D. Laing, “The selection of friendly take-over targets in the UK: some empirical evidence,” Journal:Management Decision, vol. 41, no. 6, pp.550-557, 2003. / Citied to: M. Köksal, "A fast convergent method for the analysis of nonlinear systems with periodic excitations,"1984 IEEE Int. Symp. on Circuit and Systems Proc., vol. 3 of 3, pp. 1361-1364, Montreal, Canada, May 7-10, 1984.
121. C. Weir and D. Laing, “The selection of friendly take-over targets in the UK: some empirical evidence,” Journal:Management Decision, vol. 41, no. 6, pp.550-557, 2003. / Citied to: Y. Demir and M. Köksal, ‘’State space suitable modelling of power semiconductors with ideal switches, resistors, constant voltage and current sources,’’ Electrical Engineering, vol. 86, no. 3, pp. 135-145, Feb. 19, 2004.
122. A. M. Sommariva, ”Solving the two capacitor paradox through a new asymptotic approach,” IEE Proceedings-Circuits, Devices and Systems, vol. 150, no. 3, pp.227–231, June 2003. / Citied to: M. Köksal and Y. Tokad, "Determination of initial conditions in active RLC networks," Circuit Theory and Application, vol. 6, no. 1, pp. 5-11, 1978.
123. R. M. Özdemir and G. Önbilgin, “Computer simulation of a series excited synchronous motor,” Electric Power Components and Systems, vol.. 31, no. 6, pp. 565-578, June 2003. / Citied to: Y.Demir, M. Poyraz, and M. Köksal, "Derivation of state and output equations for systems containing switches and a novel definition of a switch using the bond graph model," J. Franklin Inst., vol. 334B, no. 2, pp. 191-197, 1997.
124. S. Herdem and M. S. Mamiş, “Computation of corona effects in transmission lines using state-space techniques ”, Computers & Electrical Engineering, vol. 29/5, pp. 603-611, July 2003. Article Number: PII S0045-7906(01)00052-0, DOI: 10.1016/S0045-7906(01)00052-0. / Citied to: M. S. Mamiş and M. Köksal, "Solution of eigenproblems for state space transient analysis of transmission lines," Electric Power System Research, vol. 55, no.1, pp. 7-14, July 5, 2000.
125. Y. Demir and A. Uçar,” Modelling and simulation with neural and fuzzy-neural networks of switched circuits,” COMPEL: The International Journal for Computation and Mathematics in Electrical and Electronic Engineering, vol. 22, no. 2, pp. 253-272, 2003. / Citied to: M. Köksal and Y. Tokad, "Determination of initial conditions in active RLC networks," Circuit Theory and Application, vol. 6, no. 1, pp. 5-11, 1978.
126. M. S. Mamiş, “Computation of electromagnetic transients on transmission lines with nonlinear components”, IEE Proceedings-Generation, Transmission and Distribution, vol. 150, no: 2, pp. 200-204, 2003. / Citied to: M. S. Mamiş and M. Köksal, “Computation of lightning over voltages using nonuniform, single phase line model,” Proc. of IPST’99, Int. Conf. on Power System Transients, pp. 405-409, Budapest, Hungary, June 20-24, 1999.
127. Y. Demir and A. Uçar,” Modelling and simulation with neural and fuzzy-neural networks of switched circuits,” COMPEL: The International Journal for Computation and Mathematics in Electrical and Electronic Engineering, vol. 22, no. 2, pp. 253-272, 2003. / Citied to: M. Köksal, "A fast convergent method for the analysis of nonlinear systems with periodic excitations,"1984 IEEE Int. Symp. on Circuit and Systems Proc., vol. 3 of 3, pp. 1361-1364, Montreal, Canada, May 7-10, 1984.
128. M. S. Mamis, “State-Space Transient Analysis of Single-Phase Transmission Lines with Corona,” International Conference on Power Systems Transients – IPST’03 in New Orleans, USA, pp.1-5, 2003. / Citied to: M. S. Mamiş and M. Köksal, "Solution of eigenproblems for state space transient analysis of transmission lines," Electric Power System Research, vol. 55, no.1, pp. 7-14, July 5, 2000.
129. Y. Demir and A. Uçar,” Modelling and simulation with neural and fuzzy-neural networks of switched circuits,” COMPEL: The International Journal for Computation and Mathematics in Electrical and Electronic Engineering, vol. 22, no. 2, pp. 253-272, 2003. / Citied to: Y. Demir, M. Köksal, and S. Herdem, "State-space modeling of power semiconductors with ideal switches, resistors, constant voltage and current sources," Proc. of 5th Int. Conf. Electrimacs 1996, vol.1/9, pp. 97-102, Saint Nazarie, Sept. 17-19, 1996.
130. G. G. Chase and P. Dachavijit,”Incompressible cake filtration of a yield stress fluid,” Separation Science and Technology, vol. 38, no. 4, pp. 745-766, Jan. 2003. / Citied to: T. Abbasov, S. Herdem, and M. Köksal, "Particle capture in axial magnetic filters with power law flow model, J. Phys. D: Appl. Phys., vol. 32, pp. 1097-1103, 1999.
131. G. B. Cotton and H. B. Eldredge, “Nanolevel Magnetic Separation Model Considering Flow Limitations,” Separation Science and Technology, vol. 37, no. 16 , pp. 3755-3779, Dec. 2002. / Citied to: T. Abbasov, S Herdem, and M. Köksal, "Performance of high gradient magnetic filters with granular matrix," Separation Science and Technology, vol. 34, no. 2, pp. 263-276, Jan. 1, 1999.
132. S. A. El-Wakil, E. M. Abulwafa, M. A. Abdou, and A. Elhanbaly, “Maximum-entropy approach with higher moments for solving Fokker–Planck equation,” Physica A: Statistical Mechanics and its Applications, vol. 315, no. 3-4, pp. 480-492, Dec. 2002. / Citied to: S. Herdem, T. Abbasov, and M. Köksal, “Modeling of the buildup process of the particles in pores of high-gradient magnetic filters using the Fokker-Plank equation,” J. Physics-D: Appl. Physics, vol. 32, pp. 3146-3150, 1999.
133. M. Köksal and S. Herdem, ”Analysis of nonlinear circuits by using differential Taylor transform,“ Computers & Electrical Eng., vol. 28, no. 6, pp. 513-525, Nov. 2002. / Cited to: T. Abbasov, S. Herdem, and M. Köksal, “Modeling of distributed parameter nonlinear systems by differential Taylor method,” Control and Cybernetics, vol. 28, no. 2, pp. 259-267, 1999.
134. A. Nacaroglu and M. S. Mamis, “Transient voltage and current distributions on transmission lines ,” IEE Proceedings: Generation transmission and distribution, ISSN 1350-2360, vol. 149, no. 149, pp. 705-712. Nov. 2002. DOI: 10.1049/ip-gtd:20020625. / Citied to: M. S. Mamiş and M. Köksal, "Solution of eigenproblems for state space transient analysis of transmission lines," Electric Power System Research, vol. 55, no.1, pp. 7-14, July 5, 2000.
135. T. Abbasov and A. S. Altunbas, “Determination of the particle capture radius in magnetic filters with velocity distribution profile in pores,” Separation Science and Technology, vol. 37, no. 9, pp 2037-2053, June 2002. / Citied to: T. Abbasov, S Herdem, and M. Köksal, "Performance of high gradient magnetic filters with granular matrix," Separation Science and Technology, vol. 34, no. 2, pp. 263-276, Jan. 1, 1999.
136. S. H. Birkett and P. H. Roe, “Tthe mathematical foundations of bondgraphs v.| orientation and orthogonality for directed bondgraphs,” The Mathematical Foundations of Bondgraphs V. | Orientation and Orthogonality for Directed Bondgraphs, Department of Systems Design Engineering University of Waterloo Waterloo, Ontario Canada, pp. 1-25, April 29, 2002. / Citied to: M. Poyraz, Y. Demir, A. Gülten, and M. Köksal, "Analysis of switched-systems using the bond graph methods," J. Franklin Inst. vol. 336, no. 3, pp. 379-386, April 1999.
137. A. Kaygusuz, M.S. Mamis and E. Akın, s-Domain analysis of lightning surges on transmission towers, Proc. 1st Int Conf. On Technical and Physical Problems in Power Engineering, 23-25 April 2002, Baku, Azerbaijan, pp. 91-94. / Citied to: M. S. Mamiş and M. Köksal, “Lightning surge analysis using nonuniform single-phase line model,” IEE Proc. Gener. Transm. Distrb., vol. 148, no. 1, pp. 85-90, Jan. 2001.
138. S. Herdem and M. Köksal, “A fast algorithm to compute the steady-state solution of nonlinear circuits by piecewise linearization,” Computers and Electrical Eng., vol. 28, no. 2, pp. 91-101, March 2002. / Citied to: M. Köksal and Y. Tokad, "On the Solution of linear circuits containing periodically operated switches," Proc. of the 1976 European Conf. on Circuit Theory and Design, vol. 1, pp. 77-82, Genoa, Italy, Sept. 7-10, 1976.
139. S. Herdem and M. Köksal, “A fast algorithm to compute the steady-state solution of nonlinear circuits by piecewise linearization,” Computers and Electrical Eng., vol. 28, no. 2, pp. 91-101, March 2002. / Citied to: M. Köksal, Analysis and Applications of linear Circuits Containing Periodically Operated Switches, Ph. D. Dissertation, METU, Electrical Eng. Dept., Ankara, May 1975.
140. M. Köksal and S. Herdem, ”Analysis of nonlinear circuits by using differential Taylor transform,“ Computers & Electrical Eng., vol. 28, no. 6, pp. 513-525, Nov. 2002. / Citied to: M. S. Mamiş, T. Abbasov, S. Herdem and M. Köksal, “Transient analysis of electrical machines by differential Taylor transform,” Proc. of IPST’99, Int. Conf. on Power System Transients, pp. 325-328, Budapest, Hungary, June 20-24, 1999.
141. S. Herdem and M. Köksal, “A fast algorithm to compute the steady-state solution of nonlinear circuits by piecewise linearization,” Computers and Electrical Eng., vol. 28, no. 2, pp. 91-101, March 2002. / Citied to: Y. Demir, M. Köksal, and S. Herdem, "State-space modeling of power semiconductors with ideal switches, resistors, constant voltage and current sources," Proc. of 5th Int. Conf. Electrimacs 1996, vol.1/9, pp. 97-102, Saint Nazarie, Sept. 17-19, 1996.
142. S. Herdem and M. Köksal, “A fast algorithm to compute the steady-state solution of nonlinear circuits by piecewise linearization,” Computers and Electrical Eng., vol. 28, no. 2, pp. 91-101, March 2002. / Citied to: E. Türkbeyler and M. Köksal, "Periodic steady-state solutions of power electronic circuits," Proc. of Int. AMSE Conf. on Modeling and Simulation, vol. 2D, pp. 93-104, Istanbul, Turkey, June 29-July 1, 1988.
143. M. Köksal and S. Herdem, ”Analysis of nonlinear circuits by using differential Taylor transform,“ Computers & Electrical Eng., vol. 28, no. 6, pp. 513-525, Nov. 2002. / Citied to: S. Herdem, M. S. Mamiş, T. Abbasov, and M. Köksal, “Numerical solutions of partial differential equations for electrical machines by differential Taylor transform," Abstracts of Invited Lectures and Short Communications Delivered at the 7th Int. Colloq. on Numerical Analysis and Computer Sciences with Appl., p. 52, Plovdiv, Bulgaria, August 13 -17, 1998.
144. T. Abbasov, “Theoretical interpretation of the filtration process in magnetized packed beds,” Powder Technology, vol. 115, no.3, pp. 215-220, April 30, 2001. / Citied to: T. Abbasov, S Herdem, and M. Köksal, "Performance of high gradient magnetic filters with granular matrix," Separation Science and Technology, vol. 34, no. 2, pp. 263-276, Jan. 1, 1999.
145. T. Abbasov, “Theoretical interpretation of the filtration process in magnetized packed beds,” Powder Technology, vol. 115, no.3, pp. 215-220 , April 30, 2001. / Citied to: T. Abbasov, M. Köksal, and S. Herdem, "Theory of high-gradient magnetic filter performance," IEEE Trans. on Magnetics, vol. 35, no. 4, pp. 2128-2132, July 1999.
146. T. Abbasov, “Theoretical interpretation of the filtration process in magnetized packed beds,” Powder Technology, vol. 115, no.3, pp. 215-220, April 30, 2001. / Citied to: S. Herdem, T. Abbasov, and M. Köksal, "Filtration model of high gradient magnetic filters with granular matrix," Powder Technology, vol. 106, no. 3, pp. 176-182, Dec. 6, 1999.
147. M. Köksal and S. Herdem, "Ordinary differential equations with strong nonlinearities and their numerical solutions with abrupt changes," Appl. Mathematics and Computation, vol. 119, no. 2-3, pp. 249-264, April 15, 2001. / Citied to: M. Köksal, A Computer Program for the General Solutions of Periodically Time-Varying Systems: MAINLN, METU, Gaziantep Eng. Fac. Elect. and Electrn. Eng. Dept., Circuits and Systems, Tech. Rep. no: GEEE CAS-84/2, Jan. 1984.
148. M. Köksal and S. Herdem, "Ordinary differential equations with strong nonlinearities and their numerical solutions with abrupt changes," Appl. Mathematics and Computation, vol. 119, no. 2-3, pp. 249-264, April 15, 2001. / Citied to: M. Köksal and Y. Tokad, "On the Solution of linear circuits containing periodically operated switches," Proc. of the 1976 European Conf. on Circuit Theory and Design, vol. 1, pp. 77-82, Genoa, Italy, Sept. 7-10, 1976.
149. M. Köksal and S. Herdem, "Ordinary differential equations with strong nonlinearities and their numerical solutions with abrupt changes," Appl. Mathematics and Computation, vol. 119, no. 2-3, pp. 249-264, April 15, 2001. / Citied to: M. Köksal, "A fast convergent method for the analysis of nonlinear systems with periodic excitations,"1984 IEEE Int. Symp. on Circuit and Systems Proc., vol. 3 of 3, pp. 1361-1364, Montreal, Canada, May 7-10, 1984.
150. M. Köksal and S. Herdem, "Ordinary differential equations with strong nonlinearities and their numerical solutions with abrupt changes," Appl. Mathematics and Computation, vol. 119, no. 2-3, pp. 249-264, April 15, 2001. / Citied to: G. Tohumoğlu and M. Köksal, "Steady state analysis of periodically time-varying networks by new developments in the spectral domain," Int. J. Circuit Theory and Appl., vol. 24, pp. 519-528, 1996.
151. M. Köksal and S. Herdem, "Ordinary differential equations with strong nonlinearities and their numerical solutions with abrupt changes," Appl. Mathematics and Computation, vol. 119, no. 2-3, pp. 249-264, April 15, 2001. / Citied to: M. Köksal, Analysis and Applications of linear Circuits Containing Periodically Operated Switches, Ph. D. Dissertation, METU, Electrical Eng. Dept., Ankara, May 1975.
152. M. Köksal and S. Herdem, "Ordinary differential equations with strong nonlinearities and their numerical solutions with abrupt changes," Appl. Mathematics and Computation, vol. 119, no. 2-3, pp. 249-264, April 15, 2001. / Citied to: M. Köksal, "Analysis of nonlinear systems to find steady-state solutions by using computers," (in Turkish), Proc. of the 1st National Computer-Aided Design Conf., pp. 431-433, İzmir, April 25-27, 1984.
153. M. Köksal and S. Herdem, "Ordinary differential equations with strong nonlinearities and their numerical solutions with abrupt changes," Appl. Mathematics and Computation, vol. 119, no. 2-3, pp. 249-264, April 15, 2001. / Citied to: M. Köksal, "A new state vector which is used for the analysis of linear systems having state equations with source derivatives," (in Turkish), Proc. of the V. Science Cong., Scientific and Technical Research Council of Turkey – Eng. Research Group, Electrical Section, pp. 65-72, Istanbul, Sept. 29 -Oct. 2, 1975l
154. S. Herdem, M. Köksal, and T. Abbasov, “Simulation of the magnetic filtration process of technological liquids and gases by a nonlinear electric circuit, “ J. Phys. D: Appl. Phys., vol. 34, no. 2, pp. 238-242, Jan. 21, 2001. / Citied to: T. Abbasov, M. Köksal, and S. Herdem, "Theory of high-gradient magnetic filter performance," IEEE Trans. on Magnetics, vol. 35, no. 4, pp. 2128-2132, July 1999.
155. S. Herdem, M. Köksal, and T. Abbasov, “Simulation of the magnetic filtration process of technological liquids and gases by a nonlinear electric circuit, “ J. Phys. D: Appl. Phys., vol. 34, no. 2, pp. 238-242, Jan. 21, 2001. / Cited to: T. Abbasov, S. Herdem, and M. Köksal, “Modeling of distributed parameter nonlinear systems by differential Taylor method,” Control and Cybernetics, vol. 28, no. 2, pp. 259-267, 1999.
156. S. Herdem, M. Köksal, and T. Abbasov, “Simulation of the magnetic filtration process of technological liquids and gases by a nonlinear electric circuit, “ J. Phys. D: Appl. Phys., vol. 34, no. 2, pp. 238-242, Jan. 21, 2001. / Citied to: S. Herdem, T. Abbasov, and M. Köksal, “Modeling of the buildup process of the particles in pores of high-gradient magnetic filters using the Fokker-Plank equation,” J. Physics-D: Appl. Physics, vol. 32, pp. 3146-3150, 1999.
157. M. S. Mamiş and M. Köksal, “Lightning surge analysis using nonuniform single-phase line model,” IEE Proc. Gener. Transm. Distrb., vol. 148, no. 1, pp. 85-90, Jan. 2001. / Citied to: M. S. Mamiş and M. Köksal, “Computation of lightning over voltages using nonuniform, single phase line model,” Proc. of IPST’99, Int. Conf. on Power System Transients, pp. 405-409, Budapest, Hungary, June 20-24, 1999.
158. M. S. Mamiş and M. Köksal, “Lightning surge analysis using nonuniform single-phase line model,” IEE Proc. Gener. Transm. Distrb., vol. 148, no. 1, pp. 85-90, Jan. 2001. / Citied to: M. S. Mamiş and M. Köksal, "Transient analysis of nonuniform lossy transmission lines with frequency dependent parameters," Electric Power System Research, vol. 52, no. 3, pp. 223-228, Dec. 1, 1999.
159. M. Köksal and S. Herdem, "Ordinary differential equations with strong nonlinearities and their numerical solutions with abrupt changes," Appl. Mathematics and Computation, vol. 119, no. 2-3, pp. 249-264, April 15, 2001. / Citied to: M. Köksal and Y. Tokad, "State-space formulation of linear circuits containing periodically operated switches,” Circuit Theory and Applications, vol. 5, pp. 155-170, April 1977.
160. A. Nacaroglu and M. S. Mamis, “Transient voltage and current distributions on transmission lines ,” IEE Proceedings: Generation transmission and distribution, ISSN 1350-2360, vol. 149, no. 149, pp. 705-712. Nov. 2002. DOI: 10.1049/ip-gtd:20020625. / Citied to: M. S. Mamiş and M. Köksal, "Remark on the lumped parameter modeling of transmission lines," Electric Machines and Power Systems, vol. 28, no. 6, pp. 565-575, 2000.
161. M. S. Mamiş and M. Köksal, "Solution of eigenproblems for state space transient analysis of transmission lines," Electric Power System Research, vol. 55, no.1, pp. 7-14, July 5, 2000. / Citied to :M .S. Mamiş and M. Köksal, "Numerical solution of partial differential equations for transmission lines terminated by lumped components," Abstracts of 5th Int. Colloq. on Numerical Analysis, p. 56, Plovdiv, Bulgaria, Aug. 13-17,1996. Full paper: Proc. of the 5-th Int. Colloq. on Numerical analysis, Edited by Emil Minchev, Academic Publications pp. 87-89, Plovdiv, Bulgaria, Aug. 13-17, 1996.
162. M. S. Mamiş and M. Köksal, "Remark on the lumped parameter modeling of transmission lines," Electric Machines and Power Systems, vol. 28, no. 6, pp. 565-575, 2000. / Citied to: .S. Mamiş and M. Köksal, "Numerical solution of partial differential equations for transmission lines terminated by lumped components," Abstracts of 5th Int. Colloq. on Numerical Analysis, p. 56, Plovdiv, Bulgaria, Aug. 13-17,1996. Full paper: Proc. of the 5-th Int. Colloq. on Numerical analysis, Edited by Emil Minchev, Academic Publications pp. 87-89, Plovdiv, Bulgaria, Aug. 13-17, 1996.
163. G. Tohumoglu, "An efficient algorithm to determine the periodic steady state solutions of nonlinear systems using the extended spectral analysis", Turkish Journal of Electrical Engineering & Computer Sciences, ELEKTRİK, vol.8, no.1,pp. 31-42, 2000. / Citied to: M. Köksal and Y. Tokad, "On the Solution of linear circuits containing periodically operated switches," Proc. of the 1976 European Conf. on Circuit Theory and Design, vol. 1, pp. 77-82, Genoa, Italy, Sept. 7-10, 1976.
164. G. Tohumoglu, "An efficient algorithm to determine the periodic steady state solutions of nonlinear systems using the extended spectral analysis", Turkish Journal of Electrical Engineering & Computer Sciences, ELEKTRİK, vol.8, no.1,pp. 31-42, 2000. / Citied to: G. Tohumoğlu and M. Köksal, "Use of spectral analysis to find periodic steady-state solutions of nonlinear networks," Proc. of Int. AMSE Conf. on Modeling and Simulation, vol. 2B, pp. 93-94, Istanbul, Turkey, June 29 - July 1, 1988.
165. G. Tohumoglu, "An efficient algorithm to determine the periodic steady state solutions of nonlinear systems using the extended spectral analysis", Turkish Journal of Electrical Engineering & Computer Sciences, ELEKTRİK, vol.8, no.1,pp. 31-42, 2000. / Citied to: . Tohumoğlu and M. Köksal, "A Computer algorithm to determine the periodic steady-state solutions of nonlinear systems using the spectral analysis," Proc. of China 1991 Int. Conf. on Circuits and Systems, vol. 2 of 2, pp. 997-1000, Shenzen Univ., Shenzen-China, 16-17 June, 1991.
166. G. Tohumoglu, "An efficient algorithm to determine the periodic steady state solutions of nonlinear systems using the extended spectral analysis", Turkish Journal of Electrical Engineering & Computer Sciences, ELEKTRİK, vol.8, no.1,pp. 31-42, 2000. / Citied to: G. Tohumoğlu and M. Köksal, "Steady state analysis of periodically time-varying networks by new developments in the spectral domain," Int. J. Circuit Theory and Appl., vol. 24, pp. 519-528, 1996.
167. G. Tohumoglu, "An efficient algorithm to determine the periodic steady state solutions of nonlinear systems using the extended spectral analysis", Turkish Journal of Electrical Engineering & Computer Sciences, ELEKTRİK, vol.8, no.1,pp. 31-42, 2000. / Citied to: M. Köksal and G. Tohumoğlu, "New developments in the spectral analysis of periodically time-varying networks," Proc. of 8th IASTED Int. Symp. on Measurement, Signal and Control, MECO'86, pp. 185-190,Taormina-Italy, Sept. 3-5, 1986.
168. G. Tohumoglu, "An efficient algorithm to determine the periodic steady state solutions of nonlinear systems using the extended spectral analysis", Turkish Journal of Electrical Engineering & Computer Sciences, ELEKTRİK, vol.8, no.1,pp. 31-42, 2000. / Citied to: M. Köksal, "A fast convergent method for the analysis of nonlinear systems with periodic excitations,"1984 IEEE Int. Symp. on Circuit and Systems Proc., vol. 3 of 3, pp. 1361-1364, Montreal, Canada, May 7-10, 1984.
169. M. Poyraz, Y. Demir, A. Gülten, and M. Köksal, "Analysis of switched-systems using the bond graph methods," J. Franklin Inst. vol. 336, no. 3, pp. 379-386, April 1, 1999. / Citied to: M. Köksal and Y. Tokad, "On the Solution of linear circuits containing periodically operated switches," Proc. of the 1976 European Conf. on Circuit Theory and Design, vol. 1, pp. 77-82, Genoa, Italy, Sept. 7-10, 1976.
170. M. Poyraz, Y. Demir, A. Gülten, and M. Köksal, "Analysis of switched-systems using the bond graph methods," J. Franklin Inst. vol. 336, no. 3, pp. 379-386, April 1, 1999. / Citied to: Y.Demir, M. Poyraz, and M. Köksal, "Derivation of state and output equations for systems containing switches and a novel definition of a switch using the bond graph model," J. Franklin Inst., vol. 334B, no. 2, pp. 191-197, 1997.
171. M. Poyraz, Y. Demir, A. Gülten, and M. Köksal, "Analysis of switched-systems using the bond graph methods," J. Franklin Inst. vol. 336, no. 3, pp. 379-386, April 1, 1999. / Citied to: M. Köksal and Y. Tokad, "State-space formulation of linear circuits containing periodically operated switches,” Circuit Theory and Applications, vol. 5, pp. 155-170, April 1977.
172. M. Poyraz, Y. Demir, A. Gülten, and M. Köksal, "Analysis of switched-systems using the bond graph methods," J. Franklin Inst. vol. 336, no. 3, pp. 379-386, April 1, 1999. / Citied to: M. Köksal, "A fast convergent method for the analysis of nonlinear systems with periodic excitations,"1984 IEEE Int. Symp. on Circuit and Systems Proc., vol. 3 of 3, pp. 1361-1364, Montreal, Canada, May 7-10, 1984.
173. Y.Demir, M. Poyraz, and M. Köksal, "Derivation of state and output equations for systems containing switches and a novel definition of a switch using the bond graph model," J. Franklin Inst., vol. 334B, no. 2, pp. 191-197, March1997. / Citied to: M. Köksal and Y. Tokad, "On the Solution of linear circuits containing periodically operated switches," Proc. of the 1976 European Conf. on Circuit Theory and Design, vol. 1, pp. 77-82, Genoa, Italy, Sept. 7-10, 1976.
174. Y.Demir, M. Poyraz, and M. Köksal, "Derivation of state and output equations for systems containing switches and a novel definition of a switch using the bond graph model," J. Franklin Inst., vol. 334B, no. 2, pp. 191-197, 1997. / Citied to: M. Köksal and Y. Tokad, "State-space formulation of linear circuits containing periodically operated switches,” Circuit Theory and Applications, vol. 5, pp. 155-170, April 1977.
175. Y.Demir, M. Poyraz, and M. Köksal, "Derivation of state and output equations for systems containing switches and a novel definition of a switch using the bond graph model," J. Franklin Inst., vol. 334B, no. 2, pp. 191-197, 1997. / Citied to: M. Köksal, "A fast convergent method for the analysis of nonlinear systems with periodic excitations,"1984 IEEE Int. Symp. on Circuit and Systems Proc., vol. 3 of 3, pp. 1361-1364, Montreal, Canada, May 7-10, 1984.
176. V. Venkatasubramanian, A. Saberi, and Z. Lin, “On the validity of solutions and equilibrium points in a nonlinear network,” IEEE Trans. on Circuits and Systems, Part 1: Regular Papers,vol. 43, no. 3, pp. 233-235, March 1996. / Citied to: M. Köksal, "On the state equations of nonlinear networks and the uniqueness of their solutions," IEEE Proc., vol. 74, no. 3, pp. 513-514, March 1986.
177. G. Tohumoğlu and M. Köksal, "Steady state analysis of periodically time-varying networks by new developments in the spectral domain," Int. J. Circuit Theory and Appl., vol. 24, pp. 519-528, 1996. / Citied to: M. Köksal, A Computer Program for the General Solutions of Periodically Time-Varying Systems: MAINLN, METU, Gaziantep Eng. Fac. Elect. and Electrn. Eng. Dept., Circuits and Systems, Tech. Rep. no: GEEE CAS-84/2, Jan. 1984.
178. G. Tohumoğlu and M. Köksal, "Steady state analysis of periodically time-varying networks by new developments in the spectral domain," Int. J. Circuit Theory and Appl., vol. 24, pp. 519-528, 1996. / Citied to: M. Köksal and G. Tohumoğlu, "New developments in the spectral analysis of periodically time-varying networks," Proc. of 8th IASTED Int. Symp. on Measurement, Signal and Control, MECO'86, pp. 185-190,Taormina-Italy, Sept. 3-5, 1986.
179. G. Tohumoğlu and M. Köksal, "Steady state analysis of periodically time-varying networks by new developments in the spectral domain," Int. J. Circuit Theory and Appl., vol. 24, pp. 519-528, 1996. / Citied to: M. Köksal and Y. Tokad, "On the Solution of linear circuits containing periodically operated switches," Proc. of the 1976 European Conf. on Circuit Theory and Design, vol. 1, pp. 77-82, Genoa, Italy, Sept. 7-10, 1976.
180. G. Tohumoğlu and M. Köksal, "Steady state analysis of periodically time-varying networks by new developments in the spectral domain," Int. J. Circuit Theory and Appl., vol. 24, pp. 519-528, 1996. / Citied to: M. Köksal and Y. Tokad, "State-space formulation of linear circuits containing periodically operated switches,” Circuit Theory and Applications, vol. 5, pp. 155-170, April 1977.
181. A. Nacaroğlu and M. Köksal, "Analysis of the effect of periodic fluctuations of switching instants on the transfer characteristics of switched capacitor networks," Int. J. Circuit Theory and Appl., vol. 22, pp.15-24, 1994. / Citied to: M. Köksal and Y. Tokad, "State-space formulation of linear circuits containing periodically operated switches,” Circuit Theory and Applications, vol. 5, pp. 155-170, April 1977.
182. A. Nacaroğlu and M. Köksal, "A new feasible method for the design of stray insensitive optimum switched capacitor networks," Int. J. Circuit Theory and Appl., vol. 21, pp. 343-350, 1993. / Citied to: M. Köksal and Y. Tokad, On the Number and Locations of Switches to Freeze the States of RC and RL Networks, Scientific and Technical Research Council of Turkey, Marmara Research Inst., Gebze-Kocaeli, Electronic Research Unit, Report no: UI-75 /02, Feb. 1975.
183. A. Nacaroğlu and M. Köksal, "A new feasible method for the design of stray insensitive optimum switched capacitor networks," Int. J. Circuit Theory and Appl., vol. 21, pp. 343-350, 1993. / Citied to: A. Nacaroğlu and M. Köksal, "Design of switched capacitor networks with minimum number of switches and capacitors," Proc. of ECCTD'89, European Conf. on Circuit Theory and Design. pub. no. 308, pp. 497-501, Univ. of Sussex Brighton, U.K. Sept. 5-8, 1989.
184. A. Nacaroğlu and M. Köksal, "A new feasible method for the design of stray insensitive optimum switched capacitor networks," Int. J. Circuit Theory and Appl., vol. 21, pp. 343-350, 1993. / Citied to: M. Köksal and Y. Tokad, "Determination of initial conditions in active RLC networks," Circuit Theory and Application, vol. 6, no. 1, pp. 5-11, 1978.
185. A. Opal and J. Vlach, “Consistent initial conditions of nonlinear networks with switches,” IEEE Transactions on Circuits and Systems, vol. 38, p. 698, 1991. / Citied to: M . Köksal and Y. Tokad, "Determination of initial conditions in active RLC networks," Circuit Theory and Application, vol. 6, no. 1, pp. 5-11, 1978.
186. M. Köksal, "Exhaustive study on the commutativity of time-varying systems," Int. J. Control, vol. 47, no. 5, pp. 1521-1537, May 1988. / Citied to: M. Köksal, "General conditions for the commutativity of time-varying systems," Proc. of IASTED Int. Conf. on Telecommunication and Control (TELCON'84), pp. 223-225, Halkidiki, Greece, Aug. 27-30, 1984.
187. M. Köksal, "Exhaustive study on the commutativity of time-varying systems," Int. J. Control, vol. 47, no. 5, pp. 1521-1537, May 1988. / Citied to: M. Köksal, "Commutativity of second order time-varying systems," Int. J. Control, vol. 36, no.3, pp. 541-554, Sept. 1982.
188. M. Köksal, "Exhaustive study on the commutativity of time-varying systems," Int. J. Control, vol. 47, no. 5, pp. 1521-1537, May 1988. / Citied to: M. Köksal, "Corrections on Commutativity of second order time-varying systems," Int. J. Control, vol. 38, no.1, pp. 273-274, Jan. 1983.
189. T. S. Parker and L. Chua, “Chaos: A tutorial for engineers,” Proceedings of the IEEE, vol. 75, pp. 982-1008, 1987. / Citied to: M. Köksal, "On the state equations of nonlinear networks and the uniqueness of their solutions," IEEE Proc., vol. 74, no. 3, pp. 513-514, March 1986.
190. M. Köksal, "Exhaustive study on the commutativity of time-varying systems," Int. J. Control, vol. 47, no. 5, pp. 1521-1537, May 1988. / Citied to: M. Köksal, A survey on the commutativity of Time-Varying Systems, METU, Gaziantep Eng. Fac., Elect. and Electrn. Eng. Dept., Circuit and Systems, Tech. Rep. no: GEEE CAS-85/1, June 1985.
191. J. Tokarzewski, “Stability of periodically switched linear systems and the switching frequency,” International Lournal of Systems Science, vol. 18, no. 4, pp. 697-726, 1987. / Citied to: M. Köksal and Y. Tokad, "State-space formulation of linear circuits containing periodically operated switches,” Circuit Theory and Applications, vol. 5, pp. 155-170, April 1977.
192. A. Recski, “Unique solvability of linear memoryless networks-A survey,” IEEE Transactions on Circuits and Systems, Oct. 1984. / Citied to: M. Köksal and Y. Tokad, "Determination of initial conditions in active RLC networks," Circuit Theory and Application, vol. 6, no. 1, pp. 5-11, 1978.
193. S. V. Salehi, “Comments on 'Commutativity of second-order time-varying systems',” International Journal of Control, vol. 37, no. 5 , pp. 1195-1196, May 1983. / Citied to: M. Köksal, "Commutativity of second order time-varying systems," Int. J. Control, vol. 36, no.3, pp. 541-554, Sept. 1982.
194. M. Köksal, "Corrections on Commutativity of second order time-varying systems," Int. J. Control, vol. 38, no.1, pp. 273-274, Jan. 1983. / Citied to: M. Köksal, "Commutativity of second order time-varying systems," Int. J. Control, vol. 36, no.3, pp. 541-554, Sept. 1982.
195. J. wandewal, “A chronological list of references on switched capacitor circuits,” Electrocomponent Science and Technology, vol. 9, pp. 275-288, 1982 / Citied to: M. Köksal and Y. Tokad, "State-space formulation of linear circuits containing periodically operated switches,” Circuit Theory and Applications, vol. 5, pp. 155-170, April 1977.
196. Spectra of analog systems with periodically operated switches, 01/01/1981 / Citied to: M. Köksal and Y. Tokad, "State-space formulation of linear circuits containing periodically operated switches,” Circuit Theory and Applications, vol. 5, pp. 155-170, April 1977.
197. Periodic....Anologen systemet (in Germen), 01/10/1980 / Citied to: M. Köksal and Y. Tokad, "State-space formulation of linear circuits containing periodically operated switches,” Circuit Theory and Applications, vol. 5, pp. 155-170, April 1977.
198. M. Köksal and Y. Tokad, "Determination of initial conditions in active RLC networks," Circuit Theory and Application, vol. 6, no. 1, pp. 5-11, 1978. / Citied to: M. Köksal and Y. Tokad, "On the number and locations of switches to freeze the states of RC and RL networks," Proc. of the Third Int. Symp. on Network Theory, Session 7, pp. 299-306, Split, Yugoslavia, Sept. 1-5, 1975.
199. M. Köksal and Y. Tokad, "Determination of initial conditions in active RLC networks," Circuit Theory and Application, vol. 6, no. 1, pp. 5-11, 1978. / Citied to: M. Köksal and Y. Tokad, "Determination of initial conditions in active RLC networks," (in Turkish), Proc. of the V. Science Cong., Scientific and Technical Research Council of Turkey – Eng. Research Group, Electrical Section, pp. 29-45, Istanbul, Sept. 29 -Oct. 2, 1975.
200. M. Köksal and Y. Tokad, "Determination of initial conditions in active RLC networks," Circuit Theory and Application, vol. 6, no. 1, pp. 5-11, 1978. / Citied to: M. Köksal and Y. Tokad, "State-space formulation of linear circuits containing periodically operated switches,” Circuit Theory and Applications, vol. 5, pp. 155-170, April 1977.
201. M. Köksal and Y. Tokad, "State-space formulation of linear circuits containing periodically operated switches,” Circuit Theory and Applications, vol. 5, pp. 155-170, April 1977. / Citied to: M. Köksal, Analysis and Applications of linear Circuits Containing Periodically Operated Switches, Ph. D. Dissertation, METU, Electrical Eng. Dept., Ankara, May 1975.
202. Lahiri Abhirup, “Comment on "Electronically tunable floating inductance simulator" ,” AEU - International Journal of Electronics and Communications, vol. 63, no. 10, p. 878, Oct. 2009. DOI: 10.1016/j.aeue.2009.08.002. ./ Citied to: Sagbas M, Sedef H , Koksal M, “Electronically tunable floating inductance simulator,” / AEU-Int. J. of Electronics and Communications, Volume: 63 Issue: 5 Pages: 423-427 Published: 2009. DOI: 10.1016/j.aeue.2008.02.016.
203. U. E. Ayten, M. Sagbas, and H. Sedef, “Current-Mode SITO Filter Using a Single Active Component ,” Proc of ECCTD 2009, European Conference on Circuit Theory and Design 2009, pp. 133 – 136, Antalya-Turkey, 23-27 Aug. 2009. DOI: 10.1109/ECCTD.2009.5274954. / Cited to: M. Sagbas, U. E. Ayten, H. Sedef, and M. Koksal, “Floating immittance function simulator and its applications,” Circuits, Systems and Signal Processing, vol. 28, no. 1, pp. 55-63, Feb. 2009. DOI: 10.1007/s00034-008-9057-4.
204. U. E. Ayten, M. Sagbas andn H. Sedef, “Current mode leapfrog ladder filters using a new active block,” AEUE-International Journal of Electronics …, 2009 doi:10.1016/j.aeue.2009.03.012, Available online 8 July 2009. / Citied to: M. Sagbas, U. E. Ayten, H. Sedef, and M. Koksal, “Floating immittance function simulator and its applications,” Circuits, Systems and Signal Processing, vol. 28, no. 1, pp. 55-63, Feb. 2009.
205. U. R. Prasanna, M. Srinivas, and L. Umanand, “Macroscopic model of city traffic using bond graph modelling,” Int. J. Engineering Systems Modelling and Simulation, vol. 1, no. 2/3, 2009. / Citied to: Derivation of state and output equations for systems containing switches and a novel definition of a …Y DemI·ir, M Poyraz, M Köksal - Journal of the Franklin Institute, 1997 – Elsevier, vol. 334, March 1997, pp. 191-197.
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209. T. Abbasov ve S. Herdem, “Dolgulu yataklarda oluşan manyetik alanın özellikleri ve kuvvet etkisi, “ Elektrik-Elektronik-Bilgisayar Mühendisliği 9. Ulusal Kongresi Bildiriler Kitabı, (Kocaeli-Turkey), vol. 2, pp. 290-293, Sept, 19-23, 2001. / Citied to: T. Abbasov, M. Köksal, and S. Herdem, "Theory of high-gradient magnetic filter performance," IEEE Trans. on Magnetics, vol. 35, no. 4, pp. 2128-2132, July 1999.
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217. T. Rahgooy, H. S. Yazdi, and Reza Monsefi, “Fuzzy complex system of linear equations
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218. T. Benjanarasuth, J. Ngamwiwit, N. Komine and Y. Ochiai , “New Tuning Formulas for Two-Degree of Freedom PID Controllers and the Application to Level Control Systems,” IEEJ Transactions on Industry Applications, vol. 127, no. 5, pp.485-492, 2007. / Cited to: S. E. Hamamcı, M. Koksal, and S. Manabe, ‘’Robust position control of a radar antenna with the coefficient diagram method,’’ Proc. of the Forh Assian Control Conf., pp.1785-1790, Suntec City, Singapore, Sept. 25-27, 2002.
219. P. Pattanavijit, S. Nundrakwang, T. Benjanarasuth, J. Ngamwiwit, and N. Komine, "Simplified Design of PI Controller Based on CDM," Proc. of 2006 SICE-ICASE International Joint Conference, Busan, South Korea, ISBN: 89-950038-4-7, pp.3276-3279, October 18-October 21, 2006. / Cited to: S. E. Hamamcı, M. Koksal, and S. Manabe, ‘’Robust position control of a radar antenna with the coefficient diagram method,’’ Proc. of the Forh Assian Control Conf., pp.1785-1790, Suntec City, Singapore, Sept. 25-27, 2002.
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221. M. Köksal and S. Herdem, "Ordinary differential equations with strong nonlinearities and their numerical solutions with abrupt changes," Appl. Mathematics and Computation, vol. 119, no. 2-3, pp. 249-264, April 15, 2001. / Cited to: M. Köksal, A Computer Program for the General Solutions of Periodically Time-Varying Systems: MAINLN, METU, Gaziantep Eng. Fac. Elect. and Electrn. Eng. Dept., Circuits and Systems, Tech. Rep. no: GEEE CAS-84/2, Jan. 1984.
222. U. E. Ayten, M. Sagbas andH Sedef, “Current mode leapfrog ladder filters using a new active block,” AEUE-International Journal of Electronics …, 2009, doi:10.1016/j.aeue.2009.03.012, Available online 8 July 2009. / Cited to: M. Sagbas and M. Koksal, ‘’Voltage-mode three-input single-output multifunction filters employing minimum number of components,’’ Frequenz, vol. 61, no. 3-4, pp.87-93, May 2007.
223. N.Herencsar, J. Koton, and K. Vrba, “ Single CCTA–Based Universal Biquadratic Filters Employing Minimum Components International,” Journal of Computer and Electrical Engineering, vol. 1, no. 3, pp. 1793-8198, Augest 2009. / Cited to: M. Sagbas and M. Koksal, ‘’Voltage-mode three-input single-output multifunction filters employing minimum number of components,’’ Frequenz, vol. 61, no. 3-4, pp.87-93, May 2007.
224. Herdem, S. and Mamiş, M. S. “Computation of corona effects in transmission lines using state-space techniques ”, Computers & Electrical Engineering, vol. 29/5, pp. 603-611, July 2003. Article Number: PII S0045-7906(01)00052-0, DOI: 10.1016/S0045-7906(01)00052-0. / Cited to: M. Köksal and S. Herdem, "Ordinary differential equations with strong nonlinearities and their numerical solutions with abrupt changes," Appl. Mathematics and Computation, vol. 119, no. 2-3, pp. 249-264, April 15, 2001.
225. E. Imal, ”CDM based controller design for nonlinear heat exchanger process,” Turkish Journal of Electrical Engineering & Computer Sciences, vol.17, no. 2,,pp. 143-161, 2009. / Cited to: M. Koksal and S. E. Hamamci, "A program for the design of linear time invariant control systems: CDMCAD", Computer Applications in Engineering Education, vol. 12, no. 3, pp. 145-151, Sept. 2004.
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228. J. Zhao, J.-G. Jiang, and J.-N. Liu, “Design of tunable biquadratic filters employing CCCIIs: state variable block diagram,” approach, Analog Integrated Circuits and Signal Processing, vol. 62, no. 3, pp. 397-406, March, 2010. / Cited to: M. Sagbas and M. Koksal, "An electronically tunable voltage-mode universal filter using two current conveyors,’’ Proc. of the 2nd Conference on Ph. D. Research in Microelectronics and Electronics, pp. 137-140, June 12-15, 2006, Otranto (Lecce), Italy.
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230. U. E. Ayten, M. Sagbas, and H. Sedef, “ Current-mode SITO filter using a single active component,” Proc of ECCTD 2009, European Conference on Circuit Theory and Design 2009, pp. 133 – 136, Antalya-Turkey, 23-27 Aug. 2009. / Cited to: M. Sagbas and M. Koksal, “Current-mode state-variable filter,” Frequenz, vol. 62, no. 1-2, pp. 37-42, Jan. /Feb. 2008.
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233. M. Savic, Z. Mrcarica, and V. Litovski, “Computationally efficient simulation of nonlinear communication circuits with switches,” Proc. of the 7th WSEAS Int. Conf. on Mathematical Methods and Computational Techniques In Electr. Eng., Sofia, Bulgaria, pp. 69-74, 2005. / Cited to: Y Demir and M. Köksal, “State space suitable modelling of power semiconductors with ideal switches, resistors, constant voltage and current sources,” Electrical Engineering, vol. 86, no. 3, pp. 135-145, Feb., 2004.
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237. T. Abbasov and A. R. Bahadır, “Estimation of Particle Capture Zone Characteristics in Magnetic Filtration Processes,” Journal of Dispersion Science and Technology, vol. 28, no. 3, pp. 463-469, March 2007. / Cited to: M. Köksal, and S. Herdem, "Theory of high-gradient magnetic filter performance," IEEE Trans. on Magnetics, vol. 35, no. 4, pp. 2128-2132, July 1999.
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250. G. Tohumoglu, “Analysis of periodically time-varying discrete-time systems in spectral domain,” Applied Mathematics and Computation, vol. 162, no. 3, pp. 1151-1165, March 25, 2005. / Cited to: M. Köksal and Y. Tokad, "State-space formulation of linear circuits containing periodically operated switches,” Circuit Theory and Applications, vol. 5, pp. 155-170, April 1977.
251. A. Smadi and Y. Fujimoto, “Dynamic robust linear control method for LTI systems,” From Proceeding (550-157) Modelling, Identification, and Control - 2007, Innsbruck, Austria, Publication Date: 31-Jan-2007, Hardcopy ISBN: 978-0-88986-618-X ; ISSN: N/A / Cited to: S. E. Hamamcı, M. Koksal, and S. Manabe, ‘’Robust position control of a radar antenna with the coefficient diagram method,’’ Proc. of the Forh Assian Control Conf., pp.1785-1790, Suntec City, Singapore, Sept. 25-27, 2002.
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253. R. Nandi and M. Kar, “Third order lowpass Butterworth filters using unity gain current amplifiers,” IEICE Electronics Express, vol. 6, no. 20, pp. 1450-1455, 2009. / Cited to: M. Koksal and M. Sagbas, “Second order band-pass filter design using single CC-CDBA,” Circuits, Systems and Signal Processing, vol. 27, no. 4, pp. 461-474, Aug. 2008.
254. S. Herdem, “Rheolojik Özellikli Manyetik Sıvıların Elektromanyetik Alandaki Davranışlarının Analizi,” F. Ü. Fen ve Mühendislik Bilimleri Dergisi, vol. 15, no. 1, pp. 19-27, 2003. / Citied to: T. Abbasov, S. Herdem, and M. Köksal, "Particle capture in axial magnetic filters with power law flow model, J. Phys. D: Appl. Phys., vol. 32, pp. 1097-1103, 1999.
255. A. Eskandarpour, K Iwai, and S Asai, “Superconducting Magnetic Filter: Performance, Recovery, and Design,”IEEE Transactions on Applied Superconductivity, vol. 19, no. 2, pp. 84-95, April 4, 2009. / Citied to: T. Abbasov, S. Herdem, and M. Köksal, "Particle capture in axial magnetic filters with power law flow model, J. Phys. D: Appl. Phys., vol. 32, pp. 1097-1103, 1999.
256. S. E. Hamamci, “A robust polynomial-based control for stable processes with time delay,” Electrical Engineering (Archiv fur Elektrotechnik), vol. 87, no. 3, pp. 163-172, April 7, 2004. / Citied to:S. E. Hamamcı, M. Koksal, and S. Manabe, ‘’On the control of some nonlinear systems with the coefficient diagram method,’’ Proc. of the Forh Assian Control Conf., pp.1791-1796, Suntec City, Singapore, Sept. 25-27, 2002.
257. A. Eskandarpour, K. Iwai, S. Asai, “Superconducting Magnetic Filter: Performance, Recovery, and Design,” IEEE transactions on applied superconductivity, vol. 19, no. 2, pp. 84-95, April 4, 2009. / Citied to:S . Herdem, T. Abbasov, and M. Köksal, "Filtration model of high gradient magnetic filters with granular matrix," Powder Technology, vol. 106, no. 3, pp. 176-182, Dec. 6, 1999.
258. T. Abbasov veS. Herdem, “Manyetik filtrasyon işlemlerine etkiyen temel teknolojik parametrelerin analizi, “ Elektrik-Elektronik-Bilgisayar Mühendisliği 10. Ulusal Kongresi Bildiriler Kitabı, (İstanbul.vol-Turkey), vol. 2, pp. 361-363, Sept. 18-21 , 2003. / Citied to:S . Herdem, T. Abbasov, and M. Köksal, "Filtration model of high gradient magnetic filters with granular matrix," Powder Technology, vol. 106, no. 3, pp. 176-182, Dec. 6, 1999.
259. T. Abbasov ve S. Herdem, “Dolgulu yataklarda oluşan manyetik alanın özellikleri ve kuvvet etkisi, “ Elektrik-Elektronik-Bilgisayar Mühendisliği 9. Ulusal Kongresi Bildiriler Kitabı, (Kocaeli-Turkey), vol. 2, pp. 290-293, Sept, 19-23, 2001. / Citied to:S . Herdem, T. Abbasov, and M. Köksal, "Filtration model of high gradient magnetic filters with granular matrix," Powder Technology, vol. 106, no. 3, pp. 176-182, Dec. 6, 1999.
260. N. A. Shah, M. Quadri, and S. Z. Iqbal, “CDTA based universal transadmittance filter,” Analog Integrated Circuits and Signal Processing, vol. 52, no: 1-2, pp. 65-69, Aug. 2007. / Cited to: M. Sagbas and M. Koksal, "A new multi-mode multifunction filter using CDBA," Proc. of European Conf. on Circuit Theory and Design, vol. 2, pp. 225-228, Aug. 28-Sept. 2, 2005, Cork, Ireland.
261. D. Biolek and V. Biolkova,” Modified buffered transconductance amplifier for analog signal processing,” Proc. of Radioelektronika, 2009, 19th International Conference, Bratislava, pp. 191-194, 22-23 April 2009, / Cited to: M. Sagbas and M. Koksal, "A new multi-mode multifunction filter using CDBA," Proc. of European Conf. on Circuit Theory and Design, vol. 2, pp. 225-228, Aug. 28-Sept. 2, 2005, Cork, Ireland.
262. D. Biolek, J. Bajer, V. Biolková, Z. Kolka, and M. Kubí ek, “Z Copy-controlled gain-current differencing buffered amplifier and its applications,” International Journal of Circuit Theory and Applications, 10.1002/cta.632 About DOI, 22 Mar 2010. / Cited to: M. Sagbas and M. Koksal, "A new multi-mode multifunction filter using CDBA," Proc. of European Conf. on Circuit Theory and Design, vol. 2, pp. 225-228, Aug. 28-Sept. 2, 2005, Cork, Ireland.
263. D. Biolek, J. Bajer, V. Biolková, Z. Kolka, and M. Kubí ek, “Z Copy-controlled gain-current differencing buffered amplifier and its applications,” International Journal of Circuit Theory and Applications, 10.1002/cta.632 About DOI, 22 Mar 2010. / Citied to: M. Köksal and M. Sagbas, ‘’A versatile signal flow graph realization of a general transfer function by using CDBA,’’ Int. J. Electronics and Communications (AEÜ), vol. 61, no. 1, pp. 35-42, Jan. 2nd, 2007.
264. A. Eskandarpour, K. Iwai, S. Asai, “Superconducting Magnetic Filter: Performance, Recovery, and Design,” IEEE transactions on applied superconductivity, vol. 19, no: 2, pp. 84-95, April 4, 2009. / Cited to: S. Herdem, M. Köksal, and T. Abbasov, "Model for predicting filtration efficiency and pressure drop in axial magnetic filters," Separation Science and Technology, vol. 35, no. 7, pp. 941-950, 2000.
265. ????????????????, ???, ???, ???, ???, ???, ? … - ???????,2002-????????,| ???? | English. ?? | ???? | ???? | ???? | ?? | ?? | ?? | ?? | ??. ?? |, ???? | ???? | ???? ?? ??. ?? > ???? > ??????? > 2002 ?1? >, ????????????????. ???????????????? ...Electromagnetic Transients Simulation of Transmission Line and Its Development,Electric Power Automation Equipment, vol. 22, no. 1, 2002/ Citied to: M. S. Mamiş and M. Köksal, "Transient analysis of nonuniform lossy transmission lines with frequency dependent parameters," Electric Power System Research, vol. 52, no. 3, pp. 223-228, Dec. 1, 1999.
266. A. Kemal, “Direkt genleşmeli evaparatörün yapay sinir ağları ile modellenmesi,” Technology, Karabuk.edu.tr, vol. 7, no. 4 pp. 649-658, 2004. / Cited to: Y. Demir, R. Tuntaş, and M. Köksal, “Analysis of switched networks by artificial neural networks - Anahtarlamalı Devrelerin Yapay Sinir Ağları İle Analizi”, Proc. of the 8th National Cong. of Electric Electronic and Computer Eng., vol. 2, pp. 673-676, TMMOB Chamber of Electrical Engineers - Gaziantep Üniv., Sept. 6-12, 1999.
267. H. Doğan and K. Atik, “İklimlendirme sistemlerine yapay sinir ağları uygulanarak konfor şartlaının devamlılığının sağlanması,” Technology, Karabuk.edu.tr, vol. 7, no. 2 pp. 277-284, 2004. / Cited to: Y. Demir, R. Tuntaş, and M. Köksal, “Analysis of switched networks by artificial neural networks - Anahtarlamalı Devrelerin Yapay Sinir Ağları İle Analizi”, Proc. of the 8th National Cong. of Electric Electronic and Computer Eng., vol. 2, pp. 673-676, TMMOB Chamber of Electrical Engineers - Gaziantep Üniv., Sept. 6-12, 1999.
268. W. Chunhua, L .Yang, Z. Qiujing, and F. Yu, “Systematic Design of Fully Balanced Differential Current-Mode Multiple-Loop Feedback Filters Using CFBCCII,” Radioengineering, vol. 19, no: 1, pp.185-1930, April 2010. / Cited to: M. Koksal and M. Sagbas, “A versatile signal flow graph realization of a general current transfer function,” Int. J. Electronics and Communications (AEÜ), vol. 62, no. 1, pp. 33-40, 2008.
269. D. Biolek, J. Bajer, V. Biolková, Z. Kolka, and M. Kubí ek, “Z Copy-Controlled Gain-Current Differencing Buffered Amplifier and its applications ,” International Journal of Circuit Theory and Applications, Volume: 39, Issue: 3, Pages: 257-274, DOI: 10.1002/cta.632, (22 Mar 2010), Published: Mar 2011, 10.1002/cta.632. / Cited to: S. E. Oner, M. Koksal, and M. Sagbas, "Electronically controable biquads using sinle CDB,’’ Proc. of 2006 IEEE International Symposium on Circuits and Systems, pp. 3333-3336, May 21-24, 2006 Island of Kos, Greece.
270. E. Imal, ”CDM based controller design for nonlinear heat exchanger process,” Turkish Journal of Electrical Engineering & Computer Sciences, vol.17, no. 2, pp. 143-161, 2009. / Citied to: M. Koksal and S.E. Hamamci,“ A program for the design of linear time invariant control systems: CDMCAD,” Computer Applications In Engineering Education, vol. 12, no. 3, pp. 165-174, Oct. 2004.
271. A. Ashyralyev, M. E. Koksal, and R. P. Agrawal, “An operator-difference scheme for abstract Cauchy problems,” Computers and Mathematics with Applications, vol. 61, no. 7, pp. 1855-1872, April 2011. / Cited to: M. S. Mamiş and M. Köksal, "Transient analysis of nonuniform lossy transmission lines with frequency dependent parameters," Electric Power System Research, vol. 52, no. 3, pp. 223-228, Dec. 1, 1999.
272. A. Ashyralyev, M. E. Koksal, and R. P. Agrawal, “An operator-difference scheme for abstract Cauchy problems,” Computers and Mathematics with Applications, vol. 61, no. 7, pp. 1855-1872, April 2011. / Cited to: M. S. Mamiş and M. Köksal, " Remark on the lumped parameter modeling of transmission lines," Electric Machines and Power Systems, vol. 28, no. 6, pp. 565-575, 2000.
273. O. Ruban and J. Laugis, “Some aspects of closed control loop design,” Proc. of Lahtmets, R. (Toim.).4th Int. Symp on Topical Problems of Education in the Field of Electrical and Power Engineering, vol.1, pp. 192-199, Doctoral School of Energy and Geotechnology : Kuressaare, Estonia, Tallinn: Tallinn University of Technology, Faculty of Power Engineering; Elektriajam, Jan. 15-20, 2007. / Ciited to: S. E. Hamamci and M. Koksal, ‘Robust Controller Design for TITO Processes with Coefficient Diagram Method,’ Proceedings of 2003 IEEE Conference on Control Applications, vol. 2 of 2, pp. 1431-1436, Istanbul, Turkey, June 23-25, 2003.
274. M. Sagbas, “Component reduced floating ±L, ±C and ±R simulators with grounded passive components,” AEU - International Journal of Electronics and Communications, vol. 65, no. 10, pp. 794-798, October 2011, DOI: 10.1016/j.aeue.2011.01.006. / Citied to: M. Sagbas, U.E. Ayten, H. Sedef and M. Koksal, “Electronically tunable floating inductance simulator,” AEU – International Journal of Electronics and Communications, vol. 63, no. 5, pp. 423-427, 2009. DOI: 10.1016/j.aeue.2008.02.016.
275. M. S. Tavazoei and M.Haeri, “ Periodic characteristic ratio (PCR) method: An alternative method to determine the characteristic polynomial,” Mathematics and Computers in Simulation, vol. 80, no. 9, pp. 1841-1853, May 2010, / Ciited to: S.E. Hamamci and M. Koksal, “Chaos control using the coefficient diagram method,” 10th Workshop on Nonlinear Dynamics of Electronic Izmir-Turkey, June (2002).
276. M. S. Tavazoei and M.Haeri, “ Periodic characteristic ratio (PCR) method: An alternative method to determine the characteristic polynomial,” Mathematics and Computers in Simulation, vol. 80, no. 9, pp. 1841-1853, May 2010, / Ciited to: / S.E. Hamamci, M. Koksal, and S. Manabe, “Robust position control of a radar antenna with the coefficient diagram method,” Forth Asian Control Conference Suntec City, Singapore, September (2002).
277. D.Hanbay, I. Turkoglu, and Y. Demir, “Modeling switched circuits based on wavelet decomposition and neural networks,” , Journal of the Franklin Institute, vol. 347, no. 3, pp. 607-617, April 2010. / Cited to: M. Poyraz, Y. Demir, A. Gülten, and M. Köksal, “Analysis of switched systems using the bond graph methods,” Journal of the Franklin Institute, vol. 33, no: 6, pp. 379-386, April 1999.
278. D.Hanbay, I. Turkoglu, and Y. Demir, “Modeling switched circuits based on wavelet decomposition and neural networks,” , Journal of the Franklin Institute, vol. 347, no. 3, pp. 607-617, April 2010. / Cited to:Y. Demir and M. Koksal, “State space suitable modelling of power semiconductors with ideal switches, resistors, constant voltage and current sources,” Electrical Engineering, vol. 86, no. 3, pp. 135-145, Feb 19, 2004.
279. D.Hanbay, I. Turkoglu, and Y. Demir, “Modeling switched circuits based on wavelet decomposition and neural networks,” , Journal of the Franklin Institute, vol. 347, no. 3, pp. 607-617, April 2010. / Cited to: Y. Demir, M. Poyraz and M. Köksal, “Derivation of state and output equations for systems containing switches and a novel definition of a switch using the bond graph model,” Journal of the Franklin Institute vol. 334B, no. 2, pp. 191-197, March 1997.
280. R. Banchuin, R. Chisricharoen, and B. Chipipop, “: The Stochastic Based Inductance Model of the OTA-Based Inductor ,” Proc. Of Intelligent Signal Processing and Communication Systems ISPACS 2009, Kanazawa, Issue Date: 7-9 Dec. 2009, pp. 284-287, DOI: 10.1109/ISPACS.2009.5383845. / Cited to: M. Sagbas, U.E. Ayten, H. Sedef, and M. Koksal., "Electronically Tunable Floating Inductance Simulator," Int. J. Electron Commun (AEU) Elsevier, vol. 63, no. 5, pp. 423-427, May 2009. DOI: 10.1016/j.aeue.2008.02.016.
281. M. Sagbas, U.E. Ayten, and H. Sedef, “Current and voltage transfer function filters
using a single active device,” Circuits, Devices and Systems, vol. 4, Issue:1, pp. 78-86, Jan. 2009,/ Cited to: M. Sagbas and M. Koksal, “Voltage-mode three-input singleoutput multifunction filters employing minimum number of
components,” Frequenz, vol.61, no. 3–4, pp. 87–93, May 2007.
282. H. Aşpaslan, S. Minaei, and E. Yuce, “Negative and positive immittance function simulators and their applications,” Mixed Design of Integrated Circuits and Systems (MIXDES), 2010 Proceedings of the 17th International Conference , Warsaw, 24-26 June 2010, pp. 416-419, ISBN: 978-1-4244-7011-2, INSPEC Accession Number: 11487848, Date of Current Version: 19 August 2010.
283. M. Salih Mamis and M. Koksal, “Analysis of transmission lines transients by fast inverse Laplace transform,” (in Turkish), Proc. of 7th National Congress of Electrical Electronics ans Computer Engineering, vol. 2, pp. 583-586, Sept. 8-14, 1997./ Citied to: M. S. Mamiş and M. Köksal, "Some renovations in transient analysis of transmission lines by state-space techniques," Mathematical and Computational Appl., vol. 1, no. 1, pp.181-190, 1996.
284. M. Koksal and M. E. Emir, “Commutativity of linear time-varying differential systems with nonzero inintial conditions: a review and some new extensions,” Mathematical Problems in Engineering, vol. 2011, Article ID 678575, pp. 1-25, doi:10.1155/2011/67875, Oct. 2011. / Citied to: M. Koksal, An exhaustive study on the commutativity of time varying systems, Int. J. of Cont., vol. 5, pp. 1521-1537, 1988.
285. M. Koksal and M. E. Emir, “Commutativity of linear time-varying differential systems with nonzero inintial conditions: a review and some new extensions,” Mathematical Problems in Engineering, vol. 2011, Article ID 678575, pp. 1-25, doi:10.1155/2011/67875, Oct. 2011. Citied to: M. Koksal, Commutativity of second order time-varying systems, Int. J. of Cont., vol. 3, pp. 541-544, 1982.
286. M. Koksal and M. E. Emir, “Commutativity of linear time-varying differential systems with nonzero inintial conditions: a review and some new extensions,” Mathematical Problems in Engineering, vol. 2011, Article ID 678575, pp. 1-25, doi:10.1155/2011/67875, Oct. 2011. / Citied to: M. Koksal,. Corrections on ‘Commutativity of second-order time-varying systems’, Int. J. of Contr., vol. 1, pp. 273-274, 1983.
287. M. Koksal and M. E. Emir, “Commutativity of linear time-varying differential systems with nonzero inintial conditions: a review and some new extensions,” Mathematical Problems in Engineering, vol. 2011, Article ID 678575, pp. 1-25, doi:10.1155/2011/67875, Oct. 2011./ Citied to: M. Koksal, General conditions for commutativity of time-varying systems, Proc. of IASTED Int. Conf. on Telecommunication and Control (TELECON’84), pp. 229-225, 1984.
288. M. Koksal and M. E. Emir, “Commutativity of linear time-varying differential systems with nonzero inintial conditions: a review and some new extensions,” Mathematical Problems in Engineering, vol. 2011, Article ID 678575, pp. 1-25, doi:10.1155/2011/67875, Oct. 2011. / Citied to: M. Koksal, A Survey on the Commutativity of Time-Varying Systems, METU at Gaziantep, Turkey, 1985.
289. M. Koksal and M. E. Emir, “Commutativity of linear time-varying differential systems with nonzero inintial conditions: a review and some new extensions,” Mathematical Problems in Engineering, vol. 2011, Article ID 678575, pp. 1-25, doi:10.1155/2011/67875, Oct. 2011. / Cited to: Koksal, Commutativity of 4th order systems and Euler systems, Presented in National Congress of Electrical Engineers (in Turkish), Paper no:BI-6, Adana, Turkey, 1985.
290. M. Koksal and M. E. Emir, “Commutativity of linear time-varying differential systems with nonzero inintial conditions: a review and some new extensions,” Mathematical Problems in Engineering, vol. 2011, Article ID 678575, pp. 1-25, doi:10.1155/2011/67875, Oct. 2011. / Cited to: M. Koksal, Effects of initial conditions on the commutativity and effects of commutativity on the system sensitivity (in Turkish), Proc. of. 2nd National Cong. Of Electrical Engineers, Ankara, Turkey, pp. 570-573, 1987.
291. M. Koksal and M. E. Emir, “Commutativity of linear time-varying differential systems with nonzero inintial conditions: a review and some new extensions,” Mathematical Problems in Engineering, vol. 2011, Article ID 678575, pp. 1-25, doi:10.1155/2011/67875, Oct. 2011. / Cited to: M. Koksal, Effects of nonzero initial conditions on the commutativity of linear time-varying systems, Proc. Int. AMSE Conf. ‘Modelling and Simulation’, Istanbul, Turkey, AMSE Press, vol. 1A, pp. 49-55, 1988.
292. M. Koksal and M. E. Emir, “Commutativity of linear time-varying differential systems with nonzero inintial conditions: a review and some new extensions,” Mathematical Problems in Engineering, vol. 2011, Article ID 678575, pp. 1-25, doi:10.1155/2011/67875, Oct. 2011. / Citied to: M. Koksal, Effects of commutativity on system sensitivity, Proc. 6th Int. Symp. On Networks, Systems and Signal Processing ISYNT2 89, pp. 61-62, 1989.
293. M. E. Koksal, “An Operator-Difference Method for Telegraph Equations Arising in Transmission Lines ,” Discrete Dyanmics in Nature and Societiy, Vol. 2011, Article ID 562025, pp. 1-17, doi:10.1155/2011/561015, Oct. 2011. / Citied to: M. S. Mamiş and M. Köksal, "Numerical solution of partial differential equations for transmission lines terminated by lumped components," Abstracts of 5th Int. Colloq. on Numerical Analysis, p. 56, Plovdiv, Bulgaria, Aug. 13-17,1996.
Full paper: Proc. of the 5-th Int. Colloq. on Numerical analysis, Edited by Emil Minchev, Academic Publications pp. 87-89, Plovdiv, Bulgaria, Aug. 13-17, 1996.
294. M. E. Koksal, “An Operator-Difference Method for Telegraph Equations Arising in Transmission Lines ,” Vol. 2011, Article ID 562025, pp. 1-17, doi:10.1155/2011/561015, Oct. 2011. / Citied to: M. S. Mamiş and M. Köksal, "Transient analysis of nonuniform lossy transmission lines with frequency dependent parameters," Electric Power System Research, vol. 52, no. 3, pp. 223-228, Dec. 1, 1999.
295. M. E. Koksal, “An Operator-Difference Method for Telegraph Equations Arising in Transmission Lines ,” Vol. 2011, Article ID 562025, pp. 1-17, doi:10.1155/2011/561015, Oct. 2011. / Citied to: M. S. Mamiş and M. Köksal, "Remark on the lumped parameter modeling of transmission lines," Electric Machines and Power Systems, vol. 28, no. 6, pp. 565-575, 2000.
296. M. E. Koksal, “An Operator-Difference Method for Telegraph Equations Arising in Transmission Lines ,” Discrete Dyanmics in Nature and Societiy, Vol. 2011, Article ID 562025, pp. 1-17, doi:10.1155/2011/561015, Oct. 2011. / Citied to: M.S. Mamis, A. Kaygusuz and M. Koksal, “State variable distributed-parameter representation for transmission line for transient simuations,” Turkish J. of Electrical Engineering and Computer, vol. 18, no. 1, pp. 31-42, Jan. 2010.
297. Mehmet Emir Koksal,”Recent developments on operator-difference schemes for solving non-local bvps for the wave equation,” Vol. Xxx......... / Citied to: M.S. Mamis, M. Koksal, “Transient analysis of nonuniform lossy transmission lines with frequency dependent parameters,” Electric Power Systems Research, vol. 52, pp. 223-228, 1999.
298. Mehmet Emir Koksal,” Recent developments on operator-difference schemes for solving non-local bvps for the wave equation,” Vol. Xxx......... / Citied to: M.S. Mamis, M. Koksal, Remark on the lumped parameter modeling of transmission lines, Electric Machines and Power Systems, vol. 28, pp. 566-576, 2000.
299. Mehmet Emir Koksal,”Recent developments on operator-difference schemes for solving non-local bvps for the wave equation,”v Vol. Xxx......... / Citied to: M.S. Mamis, A. Kaygusuz, M. Koksal, State variable distributed-parameter representation of transmission line for transient simulations, Turk. J. Elec. Eng. & Comp. Sci. vol. 18, pp. 31-42, 2010.
300. Liang Taonian, Chen Jianjun; and Lei Chuang, “Algorithm of Robust Stability Region for Interval Plant with Time Delay Using Fractional Order pi(lambda)d(mu) Controller,” Communications in Nonlinear Science and Numerical Simulation, vol. 17 iss. 2 pp. 979-991, doi: 10.1016/j.cnsns.2011.06.029, feb 2012 / Citied to: S. E. Hamamci and M. Koksal, “Calculation of all stabilizing fractional-order PD controllers for integrating time delay systems”, Computers & Mathematics with Applications, vol. 59, Issue: 5, Special Issue: SI, pp.1621-1629, DOI: 10.1016/j.camwa.2009.08.049, March 2010.
301. Xin Baogui, Chen Tong and Liu Yanqin, “projective synchronization of chaotic fractional-order energy resources demand-supply systems via linear control “ Communications in Nonlinear Science and Numerical Simulation, vol.16, iss.11, pp. 4479-4486, doi: 10.1016/j.cnsns.2011.01.021, Nov. 2011. / Citied to: S. E. Hamamci and M. Koksal, “Calculation of all stabilizing fractional-order PD controllers for integrating time delay systems”, Computers & Mathematics with Applications, vol. 59, Issue: 5, Special Issue: SI, pp.1621-1629, DOI: 10.1016/j.camwa.2009.08.049, March 2010.

302. Das Saptarshi, Saha suman;,Das Shantanu, et al.” on the selection of tuning methodology of fopid controllers for the control of higher order processes“ ISA Transactions, vol. 50, iss. 3, pp. 376-388, doi: 10.1016/j.isatra.2011.02.003, July 2011. / Citied to: S. E. Hamamci and M. Koksal, “Calculation of all stabilizing fractional-order PD controllers for integrating time delay systems”, Computers & Mathematics with Applications, vol. 59, Issue: 5, Special Issue: SI, pp.1621-1629, DOI: 10.1016/j.camwa.2009.08.049, March 2010.
303. T. Vinopraba , N. Sivakumaran, and S. Narayanan ,” imc based fractional order pid controller “, book group author(s): ieee, conference: ieee Int. Conference on Industrial Technology (ICIT),Auburn Univ, Auburn, al date: mar 14-16, 2011,sponsor(s): Inst. Elect. & Electrn. Eng. (ieee); ieee Ind. Elect. Soc (ies); Auburn Univ., Source: 2011 ieee International Conference on Industrial Technology (ICIT). / Citied to: S. E. Hamamci and M. Koksal, “Calculation of all stabilizing fractional-order PD controllers for integrating time delay systems”, Computers & Mathematics with Applications, vol. 59, Issue: 5, Special Issue: SI, pp.1621-1629, DOI: 10.1016/j.camwa.2009.08.049, March 2010.
304. M. Rahimian and S. Tavazoei m,” stabilizing fractional-order pi and pd controllers: an integer-order implemented system approach “,Proceedings of the Institution of Mechanical Engineers Part I-Journal of Systems and Control Engineering, vol. 224, iss. I8 pp. 893-903, doi: 10.1243/09596518jsce1043, Dec 2010. ). / Citied to: S. E. Hamamci and M. Koksal, “Calculation of all stabilizing fractional-order PD controllers for integrating time delay systems”, Computers & Mathematics with Applications, vol. 59, Issue: 5, Special Issue: SI, pp.1621-1629, DOI: 10.1016/j.camwa.2009.08.049, March 2010.
305. Rahimian Mohammad amin, Tavazoei Mohammad Saleh, “Comparing the stability regions for fractional-order pi controllers and their integer-order approximations”, book group author(s): ieee conference: 49th ieee Conference on Decision and Control (CDC) location: Atlanta, ga date: Dec. 15-17, 2010, sponsor(s): ieee , source: 49th ieee Conference on Decision and Control (cdc), pp. 720-725 , doi: 10.1109/cdc.2010.5717715, 2010. / Citied to: S. E. Hamamci and M. Koksal, “Calculation of all stabilizing fractional-order PD controllers for integrating time delay systems”, Computers & Mathematics with Applications, vol. 59, Issue: 5, Special Issue: SI, pp.1621-1629, DOI: 10.1016/j.camwa.2009.08.049, March 2010.
306. M. S. Mamis, A. Kaygusuz, and M. Koksal, “State Variable Distributed-Parameter Representation of Transmission Line for Transient Simulation” Turkish Journal of Electrical Engineering and Computer Sciences, vol. 18, iss. 1, pp. 31-42, doi: 10.3906/elk-0905-2, 2010. / Citied to: S. E. Hamamci and M. Koksal, “Calculation of all stabilizing fractional-order PD controllers for integrating time delay systems”, Computers & Mathematics with Applications, vol. 59, Issue: 5, Special Issue: SI, pp.1621-1629, DOI: 10.1016/j.camwa.2009.08.049, March 2010.
307. M. E. Koksal, “An operator-difference method for telegraph equations arising in transmission lines “,Discrete Dynamics in Nature and Society , article no. 561015, doi: 10.1155/2011/561015, 2011. / Citied to: S. E. Hamamci and M. Koksal, “Calculation of all stabilizing fractional-order PD controllers for integrating time delay systems”, Computers & Mathematics with Applications, vol. 59, Issue: 5, Special Issue: SI, pp.1621-1629, DOI: 10.1016/j.camwa.2009.08.049, March 2010.
308. M. E. Koksal, “Recent developments on operator-difference schemes for solving nonlocal bvps for the wave equation,” Discrete Dynamics in Nature and Society , article no. 210261, doi: 10.1155/2011/210261, 2011. / Citied to: S. E. Hamamci and M. Koksal, “Calculation of all stabilizing fractional-order PD controllers for integrating time delay systems”, Computers & Mathematics with Applications, vol. 59, Issue: 5, Special Issue: SI, pp.1621-1629, DOI: 10.1016/j.camwa.2009.08.049, March 2010.
309. Das Saptarshi, Saha Suman, Das Shantanu; et al.”On the selection of tuning methodology of FOPID controllers for the control of higher order processes,” ISA TRANSACTIONS, Volume: 50, Issue: 3, Pages: 376-388 DOI: 10.1016/j.isatra.2011.02.003, Published: JUL 2011. / Cited to: Citied to: S. E. Hamamci and M. Koksal, “Calculation of all stabilizing fractional-order PD controllers for integrating time delay systems”, Computers & Mathematics with Applications, vol. 59, Issue: 5, Special Issue: SI, pp.1621-1629, DOI: 10.1016/j.camwa.2009.08.049, March 2010.
310. Nikoloudis S.; Psychalinos C., “Multiple input single output universal biquad filter with current feedback operational amplifiers”, Circuits Systems and Signal Processing, Volume: 29, Issue: 6, Pages: 1167-1180, DOI: 10.1007/s00034-010-9194-4 Published: DEC 2010. / Cited to: M. Koksal and M. Sagbas, “Second order band-pass filter design using single CC-CDBA,” Circuits, Systems and Signal Processing, vol. 27, no. 4, pp. 461-474, Aug. 2008.
311. Jerabek Jan, Sotner Roman, and Vrba Kamil, “Tunable universal filter with current follower and transconductance amplifiers and study of parasitic influences ,” Journal of Electrical Engineering-Elektrotechnicky Casopis, Volume: 62, Issue: 6, Pages: 317-326, DOI: 10.2478/v10187-011-0051-x Published: Nov-Dec 2011. / Cited to: M. Koksal and M. Sagbas, “Second order band-pass filter design using single CC-CDBA,” Circuits, Systems and Signal Processing, vol. 27, no. 4, pp. 461-474, Aug. 2008.
312. Ebaid Abd Elhalim, “ A reliable aftertreatment for improving the differential transformation method and its application to nonlinear oscillators with fractional nonlinearities ,” COMMUNICATIONS IN NONLINEAR SCIENCE AND NUMERICAL SIMULATION, Volume: 16, Issue: 1, Pages: 528-536, DOI: 10.1016/j.cnsns.2010.03.012 Published: JAN 2011. / Citied to: M. Köksal and S. Herdem, ”Analysis of nonlinear circuits by using differential Taylor transform,“ Computers & Electrical Eng., vol. 28, no. 6, pp. 513-525, Nov. 2002.
313. Catal Seval, “Solution of free vibration equations of beam on elastic soil by using differential transform method ,” APPLIED MATHEMATICAL MODELLING, Volume: 32, Issue: 9, Pages: 1744-1757, DOI: 10.1016/j.apm.2007.06.010 Published: Sep 2008. / Citied to: M. Köksal and S. Herdem, ”Analysis of nonlinear circuits by using differential Taylor transform,“ Computers & Electrical Eng., vol. 28, no. 6, pp. 513-525, Nov. 2002.
314. Gokdogan Ahmet, Merdan Mehmet, and Yildirim Ahmet, “The modified algorithm for the differential transform method to solution of Genesio systems ,” COMMUNICATIONS IN NONLINEAR SCIENCE AND NUMERICAL SIMULATION, Volume: 17, Issue: 1, Pages: 45-51, DOI: 10.1016/j.cnsns.2011.03.039, Published: JAN 2012. / Citied to: M. Köksal and S. Herdem, ”Analysis of nonlinear circuits by using differential Taylor transform,“ Computers & Electrical Eng., vol. 28, no. 6, pp. 513-525, Nov. 2002.
315. Bhaskar D. R., Abdalla Kasim K., and Senani Raj “New SRCO with explicit current-mode output using two CCs and grounded capacitors ,” 6th Int. Conference on Electrical and Electronics Engineering Location: Bursa, TURKEY, Date: Nov. 05-08, 2009, Uludag Univ; Istanbul Tech Univ., TURKISH JOURNAL OF ELECTRICAL ENGINEERING AND COMPUTER SCIENCES, Volume: 19, Issue: 2, Special Issue: SI, Pages: 235-242, DOI: 10.3906/elk-0912-11, Published: 2011. / Citied to: M. Koksal, M. Sagbas, and H. Sedef, “An electornically tunable oscillator using a single active device and two capacitors,” J. of Circuits, Systems, and Computers, vol. 17, no. 5, pp. 885-891, Oct. 2008.

316. Jerabek Jan and Vrba Kamil, “Design of SIMO-type Universal Filter with Adjustable Parameters ,”Asszisztencia Congress Bureau Ltd., 32nd International Conference on Telecommunications and Signal Processing, Dunakiliti, HUNGARY, Aug 26-27, 2009, Brno Univ Technol; Budapest Univ Technol & Econ., TSP 2009: 32ND INTERNATIONAL CONFERENCE ON TELECOMMUNICATIONS AND SIGNAL PROCESSING, Pages: 38-42, Published: 2009 / Cited to: M. Koksal and M. Sagbas, “A versatile signal flow graph realization of a general current transfer function,” Int. J. Electronics and Communications (AEÜ), vol. 62, no. 1, pp. 33-40, 2008.
317. Zhang Qiujing, Wang Chunhua, Sun Jingru; et al., “A new type of current conveyor and its application in fully balanced differential current-mode elliptic filter design ,” JOURNAL OF ELECTRICAL ENGINEERING-ELEKTROTECHNICKY CASOPIS, Volume: 62, Issue: 3, Pages: 126-133, DOI: 10.2478/v10187-011-0021-3, Published: MAY-JUN 2011 / Cited to: M. Koksal and M. Sagbas, “A versatile signal flow graph realization of a general current transfer function,” Int. J. Electronics and Communications (AEÜ), vol. 62, no. 1, pp. 33-40, 2008.
318. Soliman Ahmed M., “Pathological realizations of the DCVC (CDBA) and applications to oscillators and filters ,” AEU-INTERNATIONAL JOURNAL OF ELECTRONICS AND COMMUNICATIONS, Volume: 65, Issue: 12, Pages: 985-992, DOI: 10.1016/j.aeue.2011.03.010, Published: 2011. / Citied to: M. Köksal and M. Sagbas, ‘’A versatile signal flow graph realization of a general transfer function by using CDBA,’’ Int. J. Electronics and Communications (AEÜ), vol. 61, no. 1, pp. 35-42, Jan. 2nd, 2007.
319. Koksal Mehmet Emir, “An Operator-Difference Method for Telegraph Equations Arising in Transmission Lines ,” DISCRETE DYNAMICS IN NATURE AND SOCIETY, Article Number: 561015, DOI: 10.1155/2011/561015, Published: 2011. / Citied to: M. S. Mamis, A. Kaygusuz and M. Koksal, “State variable distributed-parameter representation for transmission line for transient simuations,” Turkish J. of Electrical Engineering and Computer, vol. 18, no. 1, pp. 31-42, Jan. 2010.
320. Koksal Mehmet Emir, “Recent Developments on Operator-Difference Schemes for Solving Nonlocal BVPs for the Wave Equation,” DISCRETE DYNAMICS IN NATURE AND SOCIETY, Article Number: 210261, DOI: 10.1155/2011/210261, Published: 2011./ Citied to: M. S. Mamis, A. Kaygusuz and M. Koksal, “State variable distributed-parameter representation for transmission line for transient simuations,” Turkish J. of Electrical Engineering and Computer, vol. 18, no. 1, pp. 31-42, Jan. 2010.
321. Kanisin D.; Nordin M. S.; Hazrul M. H.; et al., “Modelling Subsea Coaxial Cable as FIR Filter on MATLAB,” Editor(s): Hashim AM; Arora VK; Ahmad MR; et al., Conference: International Conference on Enabling Science and Nanotechnology Location: Kuala Lumpur City Ctr, Kuala Lumpur, MALAYSIA, Date: DEC 01-03, 2010,Sponsor(s): Mat Innovat & Nanoelectron Res Grp; Univ Teknologi Malaysia; Sliterra Sdn Bhd; IEEE EDS Malaysia Chapter
Source: ENABLING SCIENCE AND NANOTECHNOLOGY Book Series: AIP Conference Proceedings Volume: 1341 Pages: 104-108 DOI: 10.1063/1.3586964 Published: 2011. / Citied to: M. S. Mamiş and M. Köksal, "Solution of eigenproblems for state space transient analysis of transmission lines," Electric Power System Research, vol. 55, no.1, pp. 7-14, July 5, 2000.
322. Mamis Mehmet Salih; Kaygusuz Asim; Koksal Muhammet , “State variable distributed-parameter representation of transmission line for transient simulations ,” Turkish Journal of Electrical Engineering and Computer Sciences, Volume: 18, Issue: 1, Pages: 31-42, DOI: 10.3906/elk-0905-2, Published: 2010. / Citied to: M. S. Mamiş and M. Köksal, "Solution of eigenproblems for state space transient analysis of transmission lines," Electric Power System Research, vol. 55, no.1, pp. 7-14, July 5, 2000.
323. Kanisin K. K. Devaraj; Hong Tang Sai; Ismail Napsiah , “Analysis of subsea coaxial cables using the transmission line theory ,” Editor(s): Bourkas PD,Conference: 6th IASTED International Conference on European Power and Energy Systems Location: Rhodes, GREECE, Date: JUN 26-28, 2006. Sponsor(s): Int Assoc Sci & Technol Dev; IASTED TCEPS; World Modelling & Simulat Forum, Source: Proceedings of the Sixth IASTED International Conference on European Power and Energy Systems, Pages: 69-74, Published: 200. / Citied to: M. S. Mamiş and M. Köksal, "Solution of eigenproblems for state space transient analysis of transmission lines," Electric Power System Research, vol. 55, no.1, pp. 7-14, July 5, 2000.
324. Sagbas M.; Ayten U. E.; Sedef H.; Koksal M. “, Reply to comment on "Electronically tunable floating inductance simulator" ,” AEU-INTERNATIONAL JOURNAL OF ELECTRONICS AND COMMUNICATIONS Volume: 66 Issue: 1 Pages: 86-88 DOI: 10.1016/j.aeue.2011.04.014 Published: 2012. / Cited to: M. Sagbas, U. E. Ayten, H. Sedef, and M. Koksal, “Floating immittance function simulator and its applications,” Circuits, Systems and Signal Processing, vol. 28, no. 1, pp. 55-63, Feb. 2009. DOI: 10.1007/s00034-008-9057-4.
325. Metin Bilgin; Minaei Shahram , “Parasitic compensation in CCI-based circuits for reduced power consumption ,” ANALOG INTEGRATED CIRCUITS AND SIGNAL PROCESSING Volume: 65 Issue: 1 Pages: 157-162 DOI: 10.1007/s10470-010-9481-9 Published: OCT 2010. / Cited to: M. Sagbas, U. E. Ayten, H. Sedef, and M. Koksal, “Floating immittance function simulator and its applications,” Circuits, Systems and Signal Processing, vol. 28, no. 1, pp. 55-63, Feb. 2009. DOI: 10.1007/s00034-008-9057-4.
326. Ayten Umut E.; Sagbas Mehmet; Sedef Herman, “ Current mode leapfrog ladder filters using a new active block ,” AEU-INTERNATIONAL JOURNAL OF ELECTRONICS AND COMMUNICATIONS, Volume: 64, Issue: 6, Pages: 503-511, DOI: 10.1016/j.aeue.2009.03.012, Published: 2010 . / Cited to: M. Sagbas, U. E. Ayten, H. Sedef, and M. Koksal, “Floating immittance function simulator and its applications,” Circuits, Systems and Signal Processing, vol. 28, no. 1, pp. 55-63, Feb. 2009. DOI: 10.1007/s00034-008-9057-4.
327. Sagbas M.; Ayten U. E.; Sedef H., “Current and voltage transfer function filters using a single active device ,” IET CIRCUITS DEVICES & SYSTEMS, Volume: 4, Issue: 1, Pages: 78-86, DOI: 10.1049/iet-cds.2009.0121, Published: JAN 2010. / Cited to: M. Sagbas, U. E. Ayten, H. Sedef, and M. Koksal, “Floating immittance function simulator and its applications,” Circuits, Systems and Signal Processing, vol. 28, no. 1, pp. 55-63, Feb. 2009. DOI: 10.1007/s00034-008-9057-4.
328. Sagbas M.; Ayten U. E.; Sedef H.; Koksal M, Reply to comment on "Electronically tunable floating inductance simulator" ,” AEU-INTERNATIONAL JOURNAL OF ELECTRONICS AND COMMUNICATIONS, Volume: 66, Issue: 1, Pages: 86-88, DOI: 10.1016/j.aeue.2011.04.014, Published: 2012. / Citied to: M. Sagbas, U.E. Ayten, H. Sedef and M. Koksal, “Electronically tunable floating inductance simulator,” AEU – International Journal of Electronics and Communications, vol. 63, no. 5, pp. 423-427, 2009. DOI: 10.1016/j.aeue.2008.02.016.
329. Chien Hung-Chun; Lo Yu-Kang, “ Design and implementation of monostable multivibrators employing differential voltage current conveyors ,” MICROELECTRONICS JOURNAL, Volume: 42, Issue: 10, Pages: 1107-1115, DOI: 10.1016/j.mejo.2011.07.005, Published: Oct 2011. / Citied to: M. Sagbas, U.E. Ayten, H. Sedef and M. Koksal, “Electronically tunable floating inductance simulator,” AEU – International Journal of Electronics and Communications, vol. 63, no. 5, pp. 423-427, 2009. DOI: 10.1016/j.aeue.2008.02.016.
330. Yamamoto Sohei; Kasajima Atsuko; Takano Masashi; et al., “Validation of the Histologic Grading for Ovarian Clear Cell Adenocarcinoma: A Retrospective Multi-institutional Study by the Japan Clear Cell Carcinoma Study Group ,” INTERNATIONAL JOURNAL OF GYNECOLOGICAL PATHOLOGY, Volume: 30, Issue: 2, Pages: 129-138, DOI: 10.1097/PGP.0b013e3181f71264, Published: Mar 2011. / Citied to: M. Sagbas, U.E. Ayten, H. Sedef and M. Koksal, “Electronically tunable floating inductance simulator,” AEU – International Journal of Electronics and Communications, vol. 63, no. 5, pp. 423-427, 2009. DOI: 10.1016/j.aeue.2008.02.016.
331. Yamacli Serhan; Ozcan Sadri; Kuntman Hakan, “New active-only grounded inductance simulator employing current-mode approach suitable for wide band operation ,” INTERNATIONAL JOURNAL OF ELECTRONICS, Volume: 98, Issue: 8, Pages: 981-994, DOI: 10.1080/00207217.2010.506843, Published: 2011. / Citied to: M. Sagbas, U.E. Ayten, H. Sedef and M. Koksal, “Electronically tunable floating inductance simulator,” AEU – International Journal of Electronics and Communications, vol. 63, no. 5, pp. 423-427, 2009. DOI: 10.1016/j.aeue.2008.02.016.

KAZANILAN BURS VE ÖDÜLLER

1. Lise eğitimi bursu (3 yıl), Türkiye Hükümeti, 1961.
2. Lise, Birincilik, (4.00 / 4.00), 1964.
3. ODTÜ'ni 3.'lükle kazanmıştır, 1964.
4. NATO Lisans eğitimi bursunu kazanmış fakat kullanmamıştır, 1964.
5. Lisans, Birincilik, (3.73 / 4.00), 1969.
6. Fulbright, ABD'de lisansüstü eğitim bursunu kazanmış fakat kullanmamıştır, 1970.
7. Yüksek Lisans, Birincilik, (4.00 / 4.00), 1972.
8. Doktora, Birincilik, (4.00 / 4.00), 1975.
9. Yüksek tahsili boyunca kesintisiz 10 yıl TÜBİTAK Bursu, 1965-1975.
10. ODTÜ 10. Hizmet yılı teşfik ikramiyesi, 1979.
11. ODTÜ yurt dışı yayınları özendirme ödülü, 250.000 TL, 1987, 5 Nolu Yurtdışı makalesi nedeniyle.

12. TÜBİTAK Uluslararası SCI indeksine sahip dergilerde basılan bilimsel yayınları teşfik ödülleri: (Toplam 31 teşfik) (Teşvik verilen yayın yurtdışı makaleler listesindeki sıra numarası ile belirtilmiştir.)

100.000 TL, 1988 [6]_____________5.000.000 TL, 1993 [7]_____________1.000.000 TL, 1994 [23, bildiri]
5.000.000 TL, 1994 [8]___________5.000.000 TL, 1997 [9]______________11.666.667 TL, 1997 [10]
10.938.000 TL, 1998 [11]_________12.500.000 TL, 1999 [12]____________26.667.000 TL, 1999 [13]
23.333.000 TL, 1998 [14]_________26.667.000 TL, 1999 [15]____________5.000.000 TL, 1999 [18]
23.333.000 TL, 1999 [19]_________23.333.000 TL, 2000 [20]____________72.500.000 TL, 2000 [22]
72.500.000 TL, 2000 [23]_________37.500.000 TL, 2000 [24]____________116.677.000 TL, 2001 [25]
116.677.000 TL, 2001 [26]________70.000.000 TL, 2001 [27]____________70.000.000 TL, 2002 [28]
75.000.000 TL, 2002 [29]_________93.333.333 TL, 2002 [30]____________125.000.000 TL, 2004 [31]
125.000.000 TL, 2004 [32]________200 YTL, 2007 [33]_________________200 YTL, 2007 [34]
200 YTL, 2007 [35]______________200 YTL, 2008 [36]_________________200 YTL, 2008 [37]
100 TL, 2009, [41]_______________133 TL, 2010 [44]__________________400 TL, 2010 [45]

13. F.U.'nin SCI indeksine giren yayınları için teşfik ödülleri: (Toplam 13 teşfk) (Teşvik verilen yayın yurtdışı makaleler listesindeki sıra numarası ile belirtilmiştir.)

200 USD, 2003 [30__________300 USD, 2004 [31]_________300 USD, 2005 [32]
960.00 YTL, 2007 [33]________960.00 YTL, 2007 [34]_______960.00 YTL, 2007 [35]
360.00 YTL, 2008 [36]________360.00 YTL, 2008 [37]_______875.00 YTL, 2008 [38]
583.00 TL, 2009 [39]_________583.00 TL, 2009 [40]________438.00 TL, 2009 [41]
375.00 TL, 2009 [42]_________583.00 TL, 2010 [43_________1125 TL, 2010 [45]

YÖNETTİĞİ/GÖREV YAPTIĞI PROJELER

Yönettiği Projeler:

1. Kuvvetli elektrik alanları ve farklı elektrik boşalmaları etkisine maruz kalmış kompozit sistemlerin elektrofiziksel özelliklerinin incelenmesi. İnönü Üniv. Arş. Fonu Projesi, No: İ.Ü.A.F. 98/17.(Bitti: 2001).
2. DAP Projesi Enerji Sektörü Yürütücülüğü, (Bitti: 2001, Bakınız Araştırma Raporları [16]).
3. CDBA kullanarak aktif filter tasarımı, Fatih Üniv. Arş. Fonu Projesi, No: P50060501 (Bitti: 2006).

ÖĞRETİM DENEYİMİ

VERDİĞİ LİSANS DERSLERİ: (Toplam 39 farklı ders)

Sadece Türkçe olarak verilenler______Sadece İngilizce olarak verilenler_________Türkçe ve İngilizce olarak verilenler
______________________________________________________________________________________________

Nonlinear Electronics Lab.__________Introductory and General Physics Lab._____Introduction to Circuit Analysis I-II
Telecommunication Laboratory______Circuit Laboratory______________________Complex Variables
Non-Linear System Theory_________Analysis of Linear Discrete Physical Syst.___Telecommunication I-II
Calculus I-II_____________________State-Space Analysis of Linear Systems____Digital Control Systems
Transform Techniques_____________Introduction to Network Synthesis_________Int. to Digital Computers & Prog.
Electronics I-II___________________Passive and Active Network Synthesis______Mathematical Methods for Eng. I-II
Electronic Wave Generation________Automatic Control Systems_______________Digital Systems and Signal Proc.
Physical Electronics_______________Process Control
Digital Communication_____________Non-Linear Control Systems
Digital Filters_____________________Introduction to Probability and Random Varibles
Antenna________________________Linear Algebra I - II
Numerical Analysis _______________Differential Equations
_______________________________Electromagnetic Field Theory
_______________________________Electromagnetic Wave Theory
_______________________________RC Active Filter Design
_______________________________Communication Electronics

VERDİĞİ LİSANS ÜSTÜ DERSLER: (Toplam 16 farklı ders)

Sadece Türkçe olarak verilenlerr_____Sadece İngilizce olarak verilenler_________Türkçe ve İngilizce olarak verilenler
______________________________________________________________________________________________

Advanced Digital Filters____________Advanced Network Theory I-II____________Linear System Theory I-II
Antena and Propogations___________Optimization_________________________Engineering Mathematics I-II
_______________________________Stability Theory of Linear Dynamical Syst.
_______________________________Systems with Varying Parameters
_______________________________Adv. Filter Theory and Swiched Capacitor Filters
_______________________________Periodically Time -Varying Systems
_______________________________Introduction to Nonlinear Systems
_______________________________Numerical Analysis I-II

YÖNETİLEN TEZLER

YÖNETTİĞİ YÜKSEK LİSANS TEZLERİ:

1. Optimization of Alternating Current Resonant Filters for Invertors. ODTÜ Gaziantep, Haziran 1978 (Yardımcı Yönetici).
2. Realization of Generalized-Radix, Additive-Normalization Division Circuits. ODTÜ Gaziantep, Aralık, 1984.
3. Three Dimensional Control of Machine Tools by Using Microcomputer. ODTÜ Gaziantep, Ekim 1985.
4. Spectral Analysis Technique for Periodically Time-Varying Linear Systems. ODTÜ Gaziantep, Şubat 1986.
5. Analysis and Simulation of Chopper-Controlled dc-Motors as Periodically Time-Varying Linear Systems. ODTÜ Gaziantep, Ağustos 1987.
6. A New Approach for the Analysis of Power Electronic Networks by Treating such Networks as Linear Circuits Containing POS. ODTÜ Gaziantep, Aralık 1987.
7. Computer Aided Stability Analysis of Periodically Time-Varying Systems. ODTÜ Ankara, Şubat 1989.
8. Logic Programming With Prolog and an Application Program to Originate Test Cases in a Telephone Exchange. ODTÜ, Ankara, Şubat 1990.
9. Steady State and Transient Analysis of Transmision Lines by Using State-Space Techniques. Gaziantep Üniv., Gaziantep, Eylül 1992.
10. Elektrik Filtreleri Tasarım Programı. Fırat Üniv., 1997.
11. Model Referans Uyarlamalı Kontrol ile Kutupları Sabir Mıknatıslı bir DC Motorun Konum Kontrolu. Fatih Üniversitesi, İstanbul. Temmuz 2006.
12. CBTA Kullananarak PID Kontrolör Tasarımı (Ahmet Çakanel). Fatih Üniv.,2009- Devam ediyor.
13. Statik Güç Kaynaklarında Akım ve Gerilim Harmoniklerinin İncelenmesi, (Hakan Hızarcıoğlu), Haliç Üniverstiesi, Fen Bilimleri Enst., elektrik-Elektronik Müh. Anabilim Dalı, Şubat 2012.
14. SQL Server Performansı (Murat Çukur), Haliç Ünivrstiesi, Fen Bilimleri Enst., Bilgisayar Müh. Programı, 10 Ocak 2011- Devam ediyor.
15. İstanbul İlinde İlköğretimde Bilgisayr Kullanımı (Ahmet Can), Haliç Ünivrstiesi, Fen Bilimleri Enst., Yönetim-Bilişim Sistemleri, 16 Mart 2011- Devam ediyor.
16. İlköğretim Düzeyinde Bilişim Teknolojileri Kullanım Düzeyi veTeknoloji Bağımlılığı (Farhat Aksu), Haliç Üniverstiesi, Fen Bilimleri Enst., Yönetim-Blişim Sistemleri, 11 Şubat 2011- Devam ediyor.
17. Model Denetleme Temelli Test ve Test Analizi Yöntemlerinin Uygulanabilirliğinin Artırılması (Macit Giray Gökırmak), Haliç Üniversitesi, Bilgisayar Müh. Böl., 26.09.2011- Devam ediyor.
18. Yapay Sinir Ağlarının Elektrik Filtreleri Tasarımında Kullanımı (Ahmet Turhan), Haliç Üniversitesi, Bilgisayar Müh. Böl., 26.09.2011- Devam ediyor.

YÖNETTİĞİ YÜKSEK LİSANS DÖNEM PROJELERİ (TEZSİZ PROGRAMLAR):

1. Alışveriş Merkezi Yatırım Fizibilitesi (Kubilay Cem Kabacan). Haliç Üniversitesi, İstanbul, Haziran2011.
2. Mobil İletişim Sistemlerinin Gelişimi, Türkiye’de ve Dünya’da Mobil Uygulamalar ve Geleceğine Dair bir Araştırma (Özcan Çelik), Haliç Üniversitesi, Bilgisayar Müh. Böl., 3 Şubat 2011-Kasım 2011.
3. Halkalı/Küçükçekmece/İstanbul Semtindeki İlköğretim Okullarında Matemetik Derslerinin Öğretiminde Bilgisayar Kullanımı (İbrahim Çapacıoğlu), Haliç Üniversitesi, Bilgisayar Müh. Böl., Yönetim-Bilişim Sistemleri Prog., 21.10.2011- Devam ediyor.


YÖNETTİĞİ DOKTORA TEZLERİ:

1. Computer Oriented Analysis of Linear Circuits Containing Periodically Operating Switches; Aplications to Switched Capacitor Networks. ODTÜ, Ankara, Aralık 1989.
2. Computation of Steady State Responses of Periodically Excited Nonlinear Systems by Extended Spectral Analysis Method. ODTÜ, Ankara, Ocak 1993.
3. Parça-parça Doğrusal veya Dışarıdan Kontrollü Elemanlar içeren Devrelerin Peryodik Çözümlerinin Bulunması. Fırat Üniv., Elazığ, Nisan 1993.
4. Computer Aided Investigation of Nonideal Situations of Linear Circuits Containing Periodically Operated Switches; Applications to Switched-Capacitor Networks. Gaziantep Üniv., Eylül 1993.
5. Lineer Olmayan Devrelerin Durum Denklemlerinin Değişik Bölgelerde Bulunması ve Bölgeler Arası Geçişler için Anahtarlama Denklemlerinin Hesaplanması. Fırat Üniv., Elazığ, Kasım 1993.
6. Mikroişlemci Kontrollü Anahtarlanmış Kapasitans Devrelerinin Tasarımı ve Gerçekleştirilmesi. Fırat Üniv., Elazığ, Mart 1995.
7. Steady-State and Transient Analysis of Multi-phase Power Transmission Lines by Using State Space Techniques. Gaziantep Üniv., Mart 1997.
8. CDM (Katsayı Diyagram Metodu) ile Kontrol Sistem Özelliklerinin İncelenmesi. Fırat Üniv., Mart 2002.
9. Active Electrical Filter Design by Using CC-CDBA, Yıldız Teknik Üniversitesi, Sep. 2007.

ULUSLARARASI TOPLANTILAR

KATILDIĞI ULUSLARARASI BİLİMSEL TOPLANTILAR:

Bilimsel toplantıda sunduğu uluslararası kongre-konferans bildiri numarası Yayın Listesi’ndeki sıra numarası olup, aşağıda köşeli parantez içinde belirtilmiştir.

1. 1976 Europian Conf. on Circuit Theory and Design, Cenova, İtalya, 7-10 Eylül, 1976. [3]
2. The Fifth Summer Symp. on Circuit Theory 1977, Kladno-Prag, Çekoslavakya, 5-9 Eylül, 1977. [4]
3. ECCTD' 78 European Conf. on Circuit Theory and Desing, Lozan, İsviçre, 4-8 Eylül, 1978. [5]
4. The Forth Int. Symp. on Network Theory, Ljubljana, Yugosyavya, 4-7 Eylül, 1979.
5. IFAC Workshop on Computer Aided Design of Projects and Developement Policies, METU, Ankara, Türkiye, 22-24 Haziran, 1982.
6. 6th Summer Symp. on Circuit Theory 1982, Prag, Çekoslavakya, 12-16 Temmuz, 1982. [6]
7. IASTED Int. Conf. on Telecommunation and Control (TELCON' 1984), Halkidiki, Yunanistan, 27-30 Ağustos, 1984. [9]
8. IASTED Int. Conf. on Measurement and Control (MECO'85), İstanbul, Türkiye, 23-25 Temmuz, 1985. [10]
9. Turkish-Belgian Seminar on Energy, METU, Ankara, Türkiye, 24 Haziran, 1986.
10. IASTED Int. Conf. on Measurement, Signal Processing and Conrol (MECO'86), Taormina, İtalya, 3-5 Eylül, 1986. [11]
11. AMSE Int. Conf. on Modelling and Simulation, İstanbul, Türkiye, 29 Haziran -1 Temmuz, 1988. [13,14,15, 16, 17]
12. NATO Advanced Study Institute on Numerical Linear Algebra, Digital Signal Processing, and Parallel Algorithms, Leuven, Belçika, 1-12 Ağustos, 1988.
13. NATO Advanced Study Institute on Computer Algorithms for Solving Linear Algebraic Systems, the State of Art, Il Ciocco, İtalya, 9-12 Eylül, 1990.
14. NATO Advanced Study Institute on Algorithms for Continuous Optimization; the State of the Art, II Ciocco, İtalya, 5-18 Eylül, 1993.
15. NATO Advanced Study Institute on Modern Electrical Drives, Antalya, Türkiye, 31 Ocak - 11Şubat, 1994. [22]
16. Melecon'94, 7th Mediteranean Electrotechnical Conf., Antalya, Türkiye, 12-14 Nisan, 1994. [23]
17. Int. School of Mathematics "G. Stampacchia", Euroconference on Variational Inequalities and Network Equilibrium Problems, Erice-Sicilya, İtalya, 19-25 Haziran, 1994. [24]
18. NATO Advanced Study Institude on Reliability and Maintanence of Comlex Systems, Kemer-Antalya, Türkiye, 12-22 Haziran, 1995.
19. ECCTD'95, European Conf. on Circuit Theory and Design, İstanbul, Türkiye, 27-31 Ağustos, 1995. "21 C Fault Analysis in Circuits" konulu oturumu yönetti.
20. 5th Int. Colloq. on Numerical Analysis, Plovdiv, Bulgaristan, 13-17 Ağustos, 1996. [25, 26]
21. NATO Advanced Study Institute on Soft Computing and its Appl., Manavgat-Antalya, Türkiye, 21-31 Ağustos, 1996.
22. 5th Int. Conf. ELECTRIMACS 1996, Saint-Nazaire, Fransa, 17-19 Eylül, 1996. [27]
23. 3rd General Conf. of the Balkan Physical Union BPU-3, Cluj-Napoca, Romanya, 2-5 Eylül, 1997. [29]
24. 9th Int. Symp. on SMC (System Modelling Control), Zakopane, Polonya, 27 Nisan - 1 Mayıs 1998. [30, 31]
25. 7th Int. Colloq. on Numerical Analysis and Computer Science with Appl., Plovdiv, Bulgaristan, Ağustos 13-17, 1998. [32, 33, 34, 35]. Bir nolu salonda 15.08.1998 tarihinde 8:00-11:00 saatlerinde yapılan oturumu yönetti.
26. XV. Symp. on Electromagnetic Phenomena in Nonlinear Circuits, Liége, Belçika, Sept. 22-24, 1998. [36]
27. IPST’99, Int. Conf. on Power System Transients, Budapeşte, Macaristan, Haziran 20-24, 1999. [37, 38]
28. The Eighth Int. Colloq. on Numerical Analysis and Computer Science with Appl., Plovdiv, Bulgaria, Ağustos 13-17, 1999. [39, 40, 41 ,42]. 14.08.1999 tarihinde saat 18.00’da 3. Salonda yapılan oturumu yönetti.
29. NDES 2002, The 10th Workshp on Nonlinear Dynamics of Electronic Systems, Çeşme-İzmir, Türkiye, Haziran 21-23, 2002. [49]
30. The 4th Asian Control Conf., Singapur, Eylül 25-27, 2002. [50,51]. 28.09.2002 tarihinde saat 13.30’da 314. Nolu Salonda yapılan TM8 oturumunu yönetti.
31. 2003 IEEE Conference on Control Applications AA 2003, İstanbul, Türkiye, Haziran 23-25, 2003. [52,53]. 3 Nolu salonda 23-06-2003 tarihinde saat 16.00 da yapılan MoA3-2: Sinir Ağları konulu, 25-06-2003 tarihinde saat 16.05 de yapılan WdA3-2:Robust Kontrol konulu oturumları yönetti.
32. 2005 European Conf. on Circuit Theory and Design, Cork, İrlanda, 28 Ağustos- 2 Eylül. 2005 [55].
33. 7-th Nordic Signal Processing Symposium (NORSIG 2006), Reykjavik, Iceland, June 7-9, 2006, [57].
34. 2007 IEEE Int. Symposium on Industrial Electronics (ISIE 2007), Vigo, Spain, June 4-7, 2007, [60].
35. IEEE Int. Conf. on Circuits and Systems for Commun., Shanghai, China, Mayıs 26-28, 2008 [61].
36. 3rd IFAC Workshop Fractional Differentiation and its Applications,Cankaya University, Ankara, Turkey, Kasım 5-7, 2008, [62].
37. ECCTD'09, European Conference on Circuit Theory and Design 2009, Antalya, Turkey, Aug. 23-27, 2009, [ 63]. Chairman: Session: B6P-F Nonlinear Circuits and Systems, Aug. 25th, 2009, 16:00-17:00.

KATILDIĞI ULUSAL BİLİMSEL TOPLANTILAR

Bilimsel toplantıda sunduğu ulusal kongre-konferans bildiri numarası Yayın Listesi’ndeki sıra numarası olup, aşağıda köşeli parantez içinde belirtilmiştir.

1. TÜBİTAK Müh. Arş. Grb. V. Bilim Kong., İstanbul, 29 Eylül - 2 Ekim, 1975. [1, 2]
2. Devreler, Sistemler ve Otomatik Kontrol, İTÜ, Maçka-İstanbul, 21-22 Nisan, 1977.
3. TÜBİTAK Müh. Arş. Grb. VI. Bilim Kong., Çeşme-İzmir, 24-28 Ekim, 1977. [3]
4. TÜBİTAK Müh. Arş. Grb. VII. Bilim Kong., Kuşadası-İzmir, 4-7 Ekim, 1980. [4]
5. Birinci Ulusal Bilgisayar Destekli Tasarım Kong., Atatürk Kültür Merkezi, İzmir, 25-27 Nisan, 1984. [5]
6. İstanbul II. Büyük Boyutlu Sistemler Bilimsel Toplantısı, TÜBİTAK-Gebze, İTÜ-Taşkışla, Boğaziçi Üniv., Bebek, 25-27 Haziran, 1984.
7. Güç Elektroniği Semineri ve Sergisi, Çukurova Üniv. ve Elektrik Müh. Odası, Adana, 10-12 Nisan, 1985.
8. Elektrik Müh. Ulusal Kong. 1985, Adana, 24-27 Eylül, 1985. "4. Mertebeden sistemlerin ve Euler sistemlerinin kömütativitesi" adlı tebliğini sundu. B.3 Devreler ve Sistemler oturumunun başkanlığını yaptı.
9. Endüstriyel Üretimde İleri Teknoloji Uygulamaları Semineri, Erciyes Üniv. ve 2. Hava İkmal Bakım Merkezi Komutanlığı, Kayseri, 8-9 Mayıs, 1986.
10. TÜBİTAK 2. Ulusal Makina Teorisi Semp., ODTÜ Gaziantep Makina Müh. Böl., 22-24 Eylül, 1986. [6, 7]
11. Türkiye 4. Enerji Kong., Atatürk Kültür Merkezi, İzmir, 17-21 Kasım, 1986.
12. Elektrik Müh. 2. Ulusal Kong., ODTÜ Ankara, 22-25 Eylül, 1987. [8, 9, 10, 11]
13. Yöneylem Araştırması XI. Ulusal Kong., Marmara Üniv., Sultanahmet-İstanbul, 23-25 Eylül, 1987. [12]
14. I. Ulusal Medikal Fizik Kong., Cerrahpaşa Tıp Fakültesi, İstanbul, 8-9 Ekim, 1987. [13]
15. I. National Machine Theory Symp., Foça-Izmir, Oct. 12-14, 1988, [18]
16. Ülkemizin Kalkınmasında Mühendisliğin Rolü Semp., Yıldız Üniv., İstanbul, 20-24 Haziran, 1988. [14, 15, 16, 17]
17. TC I. Bilim Teknoloji Şurası, Milli Eğitim Bakanlığı, Ankara, 14-16 Mayıs, 1990.
18. Üniversite Sanayii İşbirliği Semineri, Çukurova Üniv., 2-4 Mart, 1991. "Güç elektroniği devrelerinin bilgisayar ile analizi üzerine bir araştırma " adlı tebliğini sundu.
19. Gıda Maddelerinde Standardizasyon Toplantısı, Türk Standartları Enstitüsü, İnönü Üniv., Malatya, 25 Ekim, 1994. “Gıda Maddelerinde Standardizasyon ve Uygulamada Karşılaşılan Meseleler” adlı paneli yönetti.
20. Elektrik Müh. 6. Ulusal Kongre ve Fuarı, Otel Almira-Bursa, 11-17 Eylül, 1995. [20, 21, 22, 23, 24]. 13 Eylül 1995 tarihli Güç elektroniği Konulu 2. Oturumu yönetti.
21. I. Sistem Müh. ve Uyg. Semp., Kara Harp Okulu, Ankara, 12-13 Ekim, 1995. [25]
22. Avrupa Gümrük Birliğinde Standardizasyon Paneli, Türk Standartları Enstitüsü, Altın Kayısı Oteli, Malatya, 30 Ekim, 1995. “Gümrük Birliğinde Standardizasyon” adlı paneli yönetti.
23. Süleyman Demirel Üniv. IX Müh. Semp., Isparta, 29-31 Mayıs, 1996. [26, 27] Elektronik ve Haberleşme III oturumuna başkanlık etti.
24. 4. Bilgisayar- Haberleşme Semp., Elektrik Mühendisleri odası - Uludağ Üniv., Buttim-Bursa, 11-15 Aralık, 1996. [30, 31, 32, 33]. 12 Aralık 1996 tarihli Haberleşmede Temel Konular adlı 4. Oturumu yönetti.
25. SIU'97, Sinyal İşleme ve Uygulamaları Kurultayı, Boğaziçi Üniv., Kuşadası, 1-3 Mayıs, 1997. [35]
26. Elektrik-Elekronik- Bilgisayar Müh. 7. Ulusal Kong., ODTÜ, Ankara, 8-14 Eylül, 1997.[36, 37, 38, 39, 40]
27. ULIBTK'97, II. Ulusal Isı Bilimi ve Tekniği Kong., Edirne, 17-19 Eylül 1997. [41]
28. Çukurova Üniv., Müh.-Mimarlık Fakültesi, Elektrik-Elektronik Müh. Böl., 28.Yıl Semp., Balcalı-ADANA, 18-20 Şubat, 1998. 20.2.1998 tarihli A4. Devreler başlıklı oturumu yönetti.
29. Elektrik-Elektronik-Bilgisayar Müh. 8. Ulusal Kong. TMMOB Elektrik Mühendisleri Odası-Gaziantep Üniv., 6-12 Eylül, 1999. [46, 47, 48, 49, 50, 51]. Kongre yürütme kurulu üyeliği yaptı. 8, 9, 10/09/1999 tarihlerinde sırayla C Salonu 2., C Salonu 1., A Salonu 3. oturumlarını yönetti.
31. Elektrik-Elektronik-Bilgisayar Müh. 9. Ulusal Kong. TMMOB Elektrik Mühendisleri Odası-Kocaeli Üniv., 19-23 Eylül, 2001. [54]. 2 Oturum yönetti.
32. Elektrik-Elektronik-Bilgisayar Müh. Eğitimi 2. Ulusal Semp., 19 Mayıs Üniv., Samsun, 25-27 Mayıs, 2005.
33. TOK’2005 Otomatik Kontrol Ulusal Toplantısı, İTÜ, Maslak, İstanbul, 2-3 Haziran 2005. [56]

YAYIN LİSTESİ

ULUSLARARASI HAKEMLİ DERGİLERDE YAYIMLANAN MAKALELER:

Aşağıdaki makalelerin 16. ve 21. hariç hepsi ‘Sience Citation Index’ ( SCI ) ' e giren dergilerde yayınlanmıştır. 17. yayının yapıldığı dergi belirtilen index’ e sonradan girmiştir.

1. M. Köksal and Y. Tokad, "State-space formulation of linear circuits containing periodically operated switches,” Circuit Theory and Applications, vol. 5, pp. 155-170, April 1977.
2. M. Köksal and Y. Tokad, "Determination of initial conditions in active RLC networks," Circuit Theory and Application, vol. 6, no. 1, pp. 5-11, 1978.
3. M. Köksal, "Commutativity of second order time-varying systems," Int. J. Control, vol. 36, no.3, pp. 541-554, Sept. 1982.
4. M. Köksal, "Corrections on Commutativity of second order time-varying systems," Int. J. Control, vol. 38, no.1, pp. 273-274, Jan. 1983.
5. M. Köksal, "On the state equations of nonlinear networks and the uniqueness of their solutions," IEEE Proc., vol. 74, no. 3, pp. 513-514, March 1986.
6. M. Köksal, "Exhaustive study on the commutativity of time-varying systems," Int. J. Control, vol. 47, no. 5, pp. 1521-1537, May 1988.
7. A. Nacaroğlu and M. Köksal, "A new feasible method for the design of stray insensitive optimum switched capacitor networks," Int. J. Circuit Theory and Appl., vol. 21, pp. 343-350, 1993.
8. A. Nacaroğlu and M. Köksal, "Analysis of the effect of periodic fluctuations of switching instants on the transfer characteristics of switched capacitor networks," Int. J. Circuit Theory and Appl., vol. 22, pp.15-24, 1994.
9. G. Tohumoğlu and M. Köksal, "Steady state analysis of periodically time-varying networks by new developments in the spectral domain," Int. J. Circuit Theory and Appl., vol. 24, pp. 519-528, 1996.
10. Y. Demir, M. Poyraz, and M. Köksal, "Derivation of state and output equations for systems containing switches and a novel definition of a switch using the bond graph model," J. Franklin Inst., vol. 334B, no. 2, pp. 191-197, March 1997.
11. H. Z. Aliyev, M. Köksal, İ. Aksoy, and M. E. Yakıncı, “Charging and discharging of particles on the low-potential electrode under bipolar corona conditions,” J. Phys. D:Appl. Phys., vol. 31, pp. 1723-1727, 1998.
12. M. Poyraz, Y. Demir, A. Gülten, and M. Köksal, "Analysis of switched-systems using the bond graph methods," J. Franklin Inst. vol. 336, no. 3, pp. 379-386, April 1, 1999.
13. T. Abbasov, S Herdem, and M. Köksal, "Performance of high gradient magnetic filters with granular matrix," Separation Science and Technology, vol. 34, no. 2, pp. 263-276, Jan. 1, 1999.
14. T. Abbasov, S. Herdem, and M. Köksal, "Particle capture in axial magnetic filters with power law flow model, J. Phys. D: Appl. Phys., vol. 32, pp. 1097-1103, 1999.
15. T. Abbasov, M. Köksal, and S. Herdem, "Theory of high-gradient magnetic filter performance," IEEE Trans. on Magnetics, vol. 35, no. 4, pp. 2128-2132, July 1999.
16. M. Köksal, M.S. Mamiş, and H.Z. Aliyev, “A new simulation model for corona discharge,” Int. J. Appl. Mathematics, vol. 1, no. 5, pp. 499-509, 1999.
17. T. Abbasov, S. Herdem, and M. Köksal, “Modeling of distributed parameter nonlinear systems by differential Taylor method,” Control and Cybernetics, vol. 28, no. 2, pp. 259-267, 1999.
18. M. S. Mamiş and M. Köksal, "Transient analysis of nonuniform lossy transmission lines with frequency dependent parameters," Electric Power System Research, vol. 52, no. 3, pp. 223-228, Dec. 1, 1999.
19. S. Herdem, T. Abbasov, and M. Köksal, "Filtration model of high gradient magnetic filters with granular matrix," Powder Technology, vol. 106, no. 3, pp. 176-182, Dec. 6, 1999.
20. S. Herdem, T. Abbasov, and M. Köksal, “Modeling of the buildup process of the particles in pores of high-gradient magnetic filters using the Fokker-Plank equation,” J. Physics-D: Appl. Physics, vol. 32, pp. 3146-3150, 1999.
21. H. Z. Aliyev and M. Köksal, "Determination of deformation potential for polymers of carbon chain structure," Balkan Physics Letters, vol. 7, no. 4, pp. 246-249, 1999.
22. M. S. Mamiş and M. Köksal, "Solution of eigenproblems for state space transient analysis of transmission lines," Electric Power System Research, vol. 55, no.1, pp. 7-14, July 5, 2000.
23. S. Herdem, M. Köksal, and T. Abbasov, "Model for predicting filtration efficiency and pressure drop in axial magnetic filters," Separation Science and Technology, vol. 35, no. 7, pp. 941-950, 2000.
24. M. S. Mamiş and M. Köksal, "Remark on the lumped parameter modeling of transmission lines," Electric Machines and Power Systems, vol. 28, no. 6, pp. 565-575, 2000.
25. S. Herdem, M. Köksal, and T. Abbasov, “Simulation of the magnetic filtration process of technological liquids and gases by a nonlinear electric circuit, “ J. Phys. D: Appl. Phys., vol. 34, no. 2, pp. 238-242, Jan. 21, 2001.
26. M. S. Mamiş and M. Köksal, “Lightning surge analysis using nonuniform single-phase line model,” IEE Proc. Gener. Transm. Distrb., vol. 148, no. 1, pp. 85-90, Jan. 2001.
27. M. Köksal and S. Herdem, "Ordinary differential equations with strong nonlinearities and their numerical solutions with abrupt changes," Appl. Mathematics and Computation, vol. 119, no. 2-3, pp. 249-264, April 15, 2001.
28. S. Herdem and M. Köksal, “A fast algorithm to compute the steady-state solution of nonlinear circuits by piecewise linearization,” Computers and Electrical Eng., vol. 28, no. 2, pp. 91-101, March 2002.
29. M. Köksal and S. Herdem, ”Analysis of nonlinear circuits by using differential Taylor transform,“ Computers & Electrical Eng., vol. 28, no. 6, pp. 513-525, Nov. 2002.
30. M. Köksal, T. Abbasov, and S. Herdem, “Mathematical modeling of the magnetic filtration processes,” Int. J. of Appl. Electromagnetics and Mechanics, vol. 18, no. 4, pp. 227-234, Dec. 2003.
31. Y. Demir and M. Köksal, ‘’State space suitable modelling of power semiconductors with ideal switches, resistors, constant voltage and current sources,’’ Electrical Engineering, vol. 86, no. 3, pp. 135-145, Feb. 2004.
32. M. Koksal and S. E. Hamamci, "A program for the design of linear time invariant control systems: CDMCAD", Computer Applications in Engineering Education, vol. 12, no. 3, pp. 145-151, Sept. 2004.
33. M. Köksal and M. Sagbas, ‘’A versatile signal flow graph realization of a general transfer function by using CDBA,’’ Int. J. Electronics and Communications (AEÜ), vol. 61, no. 1, pp. 35-42, Jan. 2nd, 2007.
34. M. Sagbas and M. Koksal, ‘’Voltage-mode three-input single-output multifunction filters employing minimum number of components,’’ Frequenz, vol. 61, no. 3-4, pp.87-93, May 2007.
35. M. Koksal and M. Sagbas ‘’ General synthesis procedure for nth-order current transfer function using CDBA,’’ Frequenz, vol. 61, no. 3-4, pp. 94-101, May 2007.
36. M. Koksal and M. Sagbas, “A versatile signal flow graph realization of a general current transfer function,” Int. J. Electronics and Communications (AEÜ), vol. 62, no. 1, pp. 33-40, 2008.
37. M. Sagbas and M. Koksal, “Current-mode state-variable filter,” Frequenz, vol. 62, no. 1-2, pp. 37-42, Jan./Feb. 2008.
38. M. Koksal and M. Sagbas, “Second order band-pass filter design using single CC-CDBA,” Circuits, Systems and Signal Processing, vol. 27, no. 4, pp. 461-474, Aug. 2008.
39. M. Koksal, M. Sagbas, and H. Sedef, “An electornically tunable oscillator using a single active device and two capacitors,” J. of Circuits, Systems, and Computers, vol. 17, no. 5, pp. 885-891, Oct. 2008.
40. R. Tuntas, Y. Demir, and M. Koksal, “A new approach for the analysis of the transient and steady state of piecewise-linear circuits by neural networks,” J. Circuits, Systems, and Computers (JCSC), vol. 17, no. 6, pp. 1091-1109, Dec. 2008.
41. M. Sagbas, U. E. Ayten, H. Sedef, and M. Koksal, “Floating immittance function simulator and its applications,” Circuits, Systems and Signal Processing, vol. 28, no. 1, pp. 55-63, Feb. 2009.
42. M. Sagbas, U. E. Ayten, H. Sedef, and M. Koksal, “Electroically tunable floating inductance simulator,” Int. J. Electronics and Communications (AEÜ), vol. 63, no. 5, pp. 423-427, May 2009.
43. A. Ashyralyev, D. Arjmand, and M. Koksal, “Taylor's decomposition on four points for solving third-order linear time-varying systems," J. Franklin Institute-Engineering and Applied Mathematics, vol. 346, no. 7, pp. 651-662, Sept. 2009.
44. M. S. Mamis, A. Kaygusuz and M. Koksal, “State variable distributed-parameter representation for transmission line for transient simuations,” Turkish J. of Electrical Engineering and Computer, vol. 18, no. 1, pp. 31-42, Jan. 2010.
45. S. E. Hamamci and M. Koksal, “Calculation of all stabilizing fractional-order PD controllers for integrating time delay systems,” Computers and Mathematics with Applications.vol. 59 , no. 5 , pp. 1621-1629, March 2010.
46. M. Sagbas, U. E. Ayten, H. Sedef, and M. Koksal, “Reply to comment on ‘Electronically tunable floating inductance simulator’,” AEU-International Journal of Electronics and Communications, vol. 66, no. 1, pp.86-88, Jan. 2012.
47. M. Sagbas and M. Koksal,” Realization of a general resistorless active biquad using CBTA,” J. of Circuits, Systems, and Computers, , vol. 21, Issue 1, pp.1250013: 1-12, Feb. 29, 2012.
48. M. Koksal • U.E. Ayten • M. Sagbas, “Realization of New Mutually Coupled Circuit Using CC-CBTAs,” Circuits Systems and Signal Processing, DOI 10.1007/s00034-011-9322-9, June 10, 2011.
49. M. Koksal and M. E. Koksal, “Commutativity of Linear Time-Varying Differential Systems with Nonzero Initial Conditions: A Review and Some New Extensions,” Mathematical Problems in Engineering, Volume 2011, Article ID 678575, 25 pages, doi:10.1155/2011/678575.
50. M. Koksal, “Realization of a general all-pole current transfer function by using CBTA,” Int. J. of Circuit Theory and Applications, DOI: 10.1002/cta.80610, Oct. 2011.

ULUSLARARASI BİLİMSEL TOPLANTILARDA SUNULAN VE BİLDİRİ KİTABINDA (PROCEEDİNGS) BASILAN BİLDİRİLER:

1. M. Köksal and Y. Tokad, "On the number and locations of switches to freeze the states of RC and RL networks," Proc. of the Third Int. Symp. on Network Theory, Session 7, pp. 299-306, Split, Yugoslavia, Sept. 1-5, 1975.
2. M. Köksal and Y. Tokad, "Equivalence between fast-periodic switched networks and time-invariant networks," Proc. of the Fifth Iranian Conf. on Electrical Eng., vol. 2, pp. 1599-1609, Shiraz, Iran, Oct. 27-30, 1975.
3. M. Köksal and Y. Tokad, "On the Solution of linear circuits containing periodically operated switches," Proc. of the 1976 European Conf. on Circuit Theory and Desing, vol. 1, pp. 77-82, Genova, Italy, Sept. 7-10, 1976.
4. M. Köksal and Ö. Hüseyin, "On the state equations of active networks," Proc. of the Fifth Symp. on Circuit Theory 1977, Short Contributions, pp. 387-391, Kladno-Prague, Czechoslavakia, Sept. 5-7, 1977.
5. M. Köksal, "A frequency domain method to find the initial values in the active RLC networks," Proc. of the 1978 European Conf. on Circuit Theory and Desing (ECCTD'78), vol. 1, pp. 88-92, Lausanne, Switzerland, Sept. 4-8, 1978.
6. M. Köksal, "Commutativity of second order time-varying systems," Proc. of the 6th Summer Symp. on Circuit Theory 1982 (SSCT'82), Short Contributions, pp. 305-309, Prague, Czechoslavakia, July 12-16, 1982.
6. M. Köksal, "Commutativity of low order time-varying systems," Proc. of the 7th Colloq. on Microwave Communication, vol. 1, pp. 230-231, Budapest, Hungary, Sept. 6-10, 1982.
8. M. Köksal, "A fast convergent method for the analysis of nonlinear systems with periodic excitations," 1984 IEEE Int. Symp. on Circuit and Systems Proc., vol. 3 of 3, pp. 1361-1364, Montreal, Canada, May 7-10, 1984.
9. M. Köksal, "General conditions for the commutativity of time-varying systems," Proc. of IASTED Int. Conf. on Telecommunication and Control (TELCON'84), pp. 223-225, Halkidiki, Greece, Aug. 27-30, 1984.
10. M. Köksal, "On the state equations of nonlinear networks and the uniqueness of their solutions," Proc. of IASTED Measurement and Control Symp., MECO'85, pp. 141-147, Istanbul, Turkey, July 23-25, 1985.
11. M.Köksal and G. Tohumoğlu, "New developments in the spectral analysis of periodically time-varying networks," Proc. of 8th IASTED Int. Symp. on Measurement, Signal and Control, MECO'86, pp. 185-190, Italy, Sept. 3-5, 1986.
12. T. Kılcı and M. Köksal, "Simulation and control of dc motors by semiconductor drives," Proc. of IASTED Int. Symp. on Simulation, Modelling and Development, SMD'87, pp. 139-142, Cairo, Egypt, March 3-4, 1987.
13. E. Türkbeyler and M. Köksal, "Periodic steady-state solutions of power electronic circuits," Proc. of Int. AMSE Conf. on Modelling and Simulation, vol. 2D, pp. 93-104, Istanbul, Turkey, June 29 - July 1, 1988.
14. G. Tohumoğlu and M. Köksal, "Use of spectral analysis to find periodic steady-state solutions of nonlinear networks," Proc. of Int. AMSE Conf. on Modelling and Simulation, vol. 2B, pp. 93-94, Istanbul, Turkey, June 29 - July 1, 1988.
15. M. Köksal and F. Yılmaz, "On the stability analysis of periodically time-varying linear systems," Proc. of Int. AMSE Conf. on Modelling and Simulation, vol. 1A, pp. 39-47, Istanbul, Turkey, June 29 - July 1, 1988.
16. A. Nacaroğlu and M. Köksal, "Transfer characteristics of multiphase switched-capacitor networks," Proc. of Int. AMSE Conf. on Modelling and Simulation, vol. 2B, pp. 63-74, Istanbul, Turkey, June 29 - July 1, 1988.
17. M. Köksal, "Effects of nonzero initial conditions on the commutativity of linear time-varying systems," Proc. of Int. AMSE Conf. on Modelling and Simulation, vol. 1A, pp. 49-55, Istanbul, Turkey, June 29 - July 1, 1988.
18. M. Köksal, "Effects of commutativity on system's sensitivity," Proc. of ISLYNT'89; 6-th Int. Symp. on Networks, Systems and Signal Processing, pp. 61-62, Univ. of Zagrep, Zagrep-Yugoslavia, June 27-29, 1989.
19. A. Nacaroğlu and M. Köksal, "A new feasible method for the design of optimum switched-capacitor (SC) networks," Proc. of ISYNT'89, 6th Int. Symp. on Networks, Systems and Signal processing, pp. 262-265, Univ. of Zagrep, Zagrep-Yugoslavia, June 27-29, 1989.
20. A. Nacaroğlu and M. Köksal, "Design of switched capacitor networks with minimum number of switches and capacitors," Proc. of ECCTD'89, European Conf. on Circuit Theory and Design, pub. no. 308, pp. 497-501, Univ. of Sussex Brighton, U.K. Sept. 5-8, 1989.
21. G. Tohumoğlu and M. Köksal, "A Computer algorithm to determine the periodic steady-state solutions of nonlinear systems using the spectral analysis," Proc. of China 1991 Int. Conf. on Circuits and Systems, vol. 2 of 2, pp. 997-1000, Shenzen Univ., Shenzen-China, 16-17 June, 1991.
22. S. Herdem and M. Köksal "Computation of steady-state performance characteristic of semiconductor drive systems," Proc. of Nato Advanced Study Inst. on Modern Electrical Drives, pp. 42-48, Belek-Antalya, Turkey, Jan. 31- Feb.11, 1994.
23. T. Kılcı and M. Köksal, "Investigation of the effects of nonideal situations on the characteristics of switched-capacitor networks," Proceeding of 7th Mediterranean Electrotechnical Conf., vol. III, pp. 1189-1192, Antalya, Turkey, April 12-14, 1994.
24. M. Köksal, "Relations between t-,s-,z- domain descriptions of periodically-switched networks," Proc. of the Int. School of Matematics, "G Stampacchia" 19th Course on Variational Inequalities and Network Equilibrium Problems, Chapter-12, pp. 155-168, June 19-25, 1994, Erice, Italy, editted by F. Gianessi and Maugeri, Plenum Press, New York, 1995.
25. M. Köksal and S. Herdem, "Periodic steady-state solutions of ordinary differential equations with strong nonlinearities," Abstracts of 5th Int. Colloq. on Numerical Analysis, p. 48, Plovdiv, Bulgaria, Aug. 13-17,1996.
26. M.S. Mamiş and M. Köksal, "Numerical solution of partical differential equations for transmission lines terminated by lumped components," Abstracts of 5th Int. Colloq. on Numerical Analysis, p. 56, Plovdiv, Bulgaria, Aug. 13-17,1996.
Full paper : Proc. of the 5-th Int. Colloq. on Numerical analysis, Editted by Emil Minchev, Academic Publications pp. 87-89, Plovdiv, Bulgaria, Aug. 13-17, 1996.
27. Y. Demir, M. Köksal, and S. Herdem, "State-space modelling of power semiconductors with ideal switches, resistors, constant voltage and current sources," Proc. of 5th Int. Conf. Electrimacs 1996, vol.1/9, pp. 97-102, Saint Nazarie, Sept. 17-19, 1996.
28. M. Poyraz, Y. Demir, and M. Köksal, "Modelling of power electronic circuits using the bond graph method with a novel switch definition," Book of Proc. of EPMC 97' The first Int. Cong. in Israel on Energy, Power and Motion Control, pp.180-185, Hilton Tel-Aviv, Israel, 5-6 May 1997.
29. H. Z. Aliyev and M. Köksal, "Determination of deformation potential for polymers of carbochain structure," 3rd general Conf. of the Balkan Physical Union BPU-3 Abstracts, p. 456, Cluj-Napoca, Romania, Sept. 2-5, 1997.
30. S. Herdem, M. S. Mamiş, and M. Köksal, “Computation of corona effects in power transmission systems," Proc. of 9th Int. Symp. on SMC (System Modelling Control), p. 32, Zakopane, Poland, April 27 - May 1, 1998.
31. T. Abbasov, S. Herdem, and M. Köksal, “Modelling of distributed parameter nonlinear systems by differantial Taylor method," Proc. of 9th Int. Symp. on SMC (System Modelling Control), p. 25, Zakopane, Poland, April 27 - May 1, 1998.
32. T. Abbasov, M. Köksal, and S. Herdem, “Mathematical modelling of fluid-solid mass transfer problems in high gradient magnetic field," Abstracts of Invited Lectures and Short Communications Delivered at the 7th Int. Colloq. on Numerical Analysis and Computer Sciences with Appl., p. 1, Plovdiv, Bulgaria, August 13-17, 1998.
33. H. Z. Aliyev and M. Köksal, “Determination of corona discharge potential in accordance with potential gradient in a coaxial electrode system," Abstracts of Invited Lectures and Short Communications Delivered at the 7th Int. Colloq. on Numerical Analysis and Computer Sciences with Appl., p. 7, Plovdiv, Bulgaria, August 13-17,1998.
34. S. Herdem, M. S. Mamiş, T. Abbasov, and M. Köksal, “Numerical solutions of partial differantial equations for electrical machines by differantial Taylor transform," Abstracts of Invited Lectures and Short Communications Delivered at the 7th Int. Colloq. on Numerical Analysis and Computer Sciences with Appl., p. 52, Plovdiv, Bulgaria, August 13 -17, 1998.
35. M. Köksal and S. Herdem, “Ordinary differantial equations with strong nonlinearities and their numerical solutions with abrupt changes," Abstracts of Invited Lectures and Short Communications Delivered at the 7th Int. Colloq. on Numerical Analysis and Computer Sciences with Appl., p. 66, Plovdiv, Bulgaria, August 13-17, 1998.
36. S. Herdem, M. Köksal, and Y. Demir, “Steady-state analysis of electrical systems with strongly nonlinear components," Proc. of XV. Symp. Electromagnetic Phenomena in Nonlinear Circuits, pp. 233-236, Liege, Belgium, Sept. 22-24, 1998.
37. M. S. Mamiş, T. Abbasov, S. Herdem, and M. Köksal, “Transient analysis of electrical machines by differantial Taylor transform,” Proc. of IPST’99, Int. Conf. on Power System Transients, pp. 325-328, Budapest, Hungary, June 20-24, 1999.
38. M. S. Mamiş and M. Köksal, “Computation of lightning overvoltages using nonuniform, single phase line model,” Proc. of IPST’99, Int. Conf. on Power System Transients, pp. 3405-409, Budapest, Hungary, June 20-24, 1999.
39. T. Abbasov, M. Köksal, and S. Herdem, “Investigation of the dynamics of the flow of magnetic liquids in a magnetic field,” Abstracts of Invited Lectures and Short Communications Delivered at The Eighth Int. Colloq. on Numerical Analysis and Computer Science with Appl., p. 1, Plovdiv, Bulgaria, August 13-17, 1999.
40. H. Z. Aliyev and M. Köksal, “Electret effect in non-crystaline polymer dielectrics and semiconductors exposed on gas discharge in SF6,” Abstracts of Invited Lectures and Short Communications Delivered at The Eighth Int. Colloq. on Numerical Analysis and Computer Science with Appl., p. 3, Plovdiv, Bulgaria, August 13-17, 1999.
41. M. Köksal, “On the activity and passivity of components,” Abstracts of Invited Lectures and Short Communications Delivered at The Eighth Int. Colloq. on Numerical Analysis and Computer Science with Appl., p. 106, Plovdiv, Bulgaria, August 13-17, 1999.
42. M. S. Mamiş and M. Köksal, “On the computation of eigenvalues of tridiagonal matrices,” Abstracts of Invited Lectures and Short Communications Delivered at the Eighth Int. Colloq. on Numerical Analysis and Computer Science with Appl., p. 126, Plovdiv, Bulgaria, August 13-17, 1999.
43. S. E. Hamamcı and M. Köksal, "A new method for the design of band pass Bessel filter," Proc. of ELECO'99, Int. Conf. on Electrical and Electronics Eng., vol. Electronics, pp. 64-67, Uludağ Univ., Bursa, Turkey, Dec. 1-5, 1999.
44. S. Herdem, T. Abbasov, A. Memmedov, and M. Köksal, "On the coagulation and detachment processes of particles in magnetic field," Proc. of World Filtration Cong. 8, WFC 8, pp. 781-784, Brighton, UK, 3-7 April, 2000.
45. T. Abbasov, S. Herdem, and M. Köksal, "Wastewater treatment by magnetic filtration in oil industry," Proc. of World Filtration Cong. 8, WFC 8, pp. 1217-1220, Brighton, UK, 3-7 April, 2000.
46. S.E. Hamamcı and M. Köksal, “Robust control of a dc motor by Coefficient Diagram Method,” Proc. of 9th Mediterranean Conf. on Control and Automation MED’01, Drive Control WA2-B Dubrovnik, Crotia, June 27-29, 2001.
47. S.E. Hamamcı, I. Kaya, and M. Köksal, “Improving performance for a class of processes using Coefficient Diagram Method,” Proc. of 9th Mediterranean Conf. on Control and Automation MED’01, Adaptive and PID Control TA1-A Dubrovnik, Crotia, June 27-29, 2001.
48. A. Memmedov, M. Köksal, and Ö.F. Özgüven, “Electric circuit model of magnetic filters,” Proc. of Int. Conf. on the Environmental Problems of the Mediterranean Region EPMR-2002, pp. 155-156, Near East Univ., Nicosia, TRNC, April 12-15, 2002.
49. T. Abbasov, S. Herdem, M. Köksal, S. Mamiş, ‘’Modelling of transient regimes of electrical machines by differential Taylor transform,’’ Conference Proceeding of TPA-2002 Technical and Physical Problenms in Power Engineering, pp. 501-504, Baku, Azerbaijan, April 23-25, 2002.
50. S. E. Hamamcı and M. Köksal, ‘’Chaos control using the coefficient diagram method,’’ Proc. of the 10-th Workshop on Nonlinear Dynamics of Electronic Systems NDES 2002, pp. 3:33-3:36, Çeşme-Izmir, Turkey, June 21-23, 2002.
51. S. E. Hamamcı, M. Koksal, and S. Manabe, ‘’Robust position control of a radar antenna with the coefficient diagram method,’’ Proc. of the Forh Assian Control Conf., pp.1785-1790, Suntec City, Singapore, Sept. 25-27, 2002.
52. S. E. Hamamcı, M. Koksal, and S. Manabe, ‘’On the control of some nonlinear systems with the coefficient diagram method, ’’ Proc. of the Forh Assian Control Conf., pp.1791-1796, Suntec City, Singapore, Sept. 25-27, 2002.
53. S. E. Hamamci and M. Koksal, ‘Robust Controller Design for TITO Processes with Coefficient Diagram Method,’ Proceedings of 2003 IEEE Conference on Control Applications, vol. 2 of 2, pp. 1431-1436, June 23-25, 2003 Istanbul, Turkey.
54. M. Koksal and S. E. Hamamci ‘Robust Temparature Control of MSF Desalination Plants with Coefficient Diagram Method,’ Proceedings of 2003 IEEE Conference on Control Applications, vol. 2 of 2, pp. 1437-1442, June 23-25, 2003 Istanbul, Turkey.
55. Mehmet Sagbas and Muhammet Koksal, "A new multi-mode multifunction filter using CDBA," Proc. of European Conf. on Circuit Theory and Design, vol. 2, pp. 225-228, Aug. 28-Sept. 2, 2005, Cork, Ireland.
56. S. E. Oner, M. Koksal, and M. Sagbas, "Electronically controable biquads using sinle CDB,’’ Proc. of 2006 IEEE International Symposium on Circuits and Systems, pp. 3333-3336, May 21-24, 2006 Island of Kos, Greece.
57. M. Sagbas and M. Koksal, "Four canonical current-mode biquads using sinle current conveyor," Proceedings of the 7-th Nordic Signal Processing Symposium (NORSIG 2006), 1/1, Session 2, pp. 38-41, June 7-9, 2006, Reykjavik, Iceland.
58. M. Sagbas and M. Koksal, "An electronically tunable voltage-mode universal filter using two current conveyors’’, Proc. of the 2nd Conference on Ph. D. Research in Microelectronics and Electronics, pp. 137-140, June 12-15, 2006, Otranto (Lecce), Italy.
59. M. Sagbaş, M. Koksal, and H. Sedef "Highly selective second-order band-pass filter design using minimum number of components’’, Proc. of the 3rd International Conference on Circuits and Systems for Communications, ISBN 973-755-069-2/978-755-069-9, pp. 79-82, July 6-7, 2006, Politehnica University, Bucharest, Romania.
60. M. Koksal and F. Yenici ‘’Position control of a permanent magnet DC motor by model reference adaptive control’’, Proc. of 2007 IEEE Int. Symposium on Industrial Electronics (ISIE 2007), pp. 112-117, June 4-7, 2007, Vigo, Spain.
61. E. Ercelebi and M. Koksal, “Channel Equalization for OFDM systems in noisy channel using RLS,” Proc. of IEEE Int. Conf. on Circuits and Systems for Communications, 978-1-4244-1708-7/08/$25.00 ©2008 IEEE, paper no. 156, pp.1-5, May 26-28, 2008, Shanghai, China.
62. S. E. Hamamci and M. Koksal, “Stabilization of integrating time delay systems by fractional-order PD controllers”, Proc. of 3rd IFAC Workshop Fractional Differentiation and its Applications,Cankaya University, Control 1, 1.4, pp. 1-6, , Nov. 5-7, 2008, Ankara, Turkey.

YAZILAN ULUSLARARASI KİTAPLAR VEYA KİTAPLARDA BÖLÜMLER:

1. Variational Inequalities and Network Equilibrium Problems (Ch.12), Ed. by F. Gianessi and A. Maugeri, ISBN: 0-306-450007-0,1995 Plenium Press New York, N.Y.

YAZILAN ULUSAL KİTAPLAR VEYA KİTAPLARDA BÖLÜMLER:

1. Circuit Analysis Laboratory Manuel. Gaziantep Üniv. yayını, Eylül 1992'de basıldı. ISBN : 975 - 7375 - 03 -9.
2. Elektronik Mühendisliğine Giriş (Bölüm 7- Alternatif Akım Devreleri, sayfa: 131-184), Editörler: A. Okatan ve M. Ün, ISBN: 978-975-6797-92-1, Nisan 2011, Papatya Yayıncılık Eğitim, İstanbul.


ULUSAL HAKEMLİ DERGİLERDE YAYIMLANAN MAKALELER:

1. M. Köksal, "Dur-geç süzgeçler", Elektrik Mühendisliği, no. 237, s. 463-466, Eylül 1976.
2. M. Köksal, "N-yollu süzgeçler", Elektrik Mühendisliği, no. 265-266, s. 408-420, Ocak - Şubat 1979.
3. M. Köksal, "On the state equations of nonlinear networks and the uniqeness of their solutions", METU J. of Pure and Appl. Sciences, vol. 18, no. 3, pp. 305-314, Dec. 1985.
4. Y. Demir, M. Poyraz ve M. Köksal, "Lineer elektrik devrelerinin bond-graf modelinden yararlanarak durum ve çıkış denklemlerinin elde edilmesi," F. Ü. Fen ve Müh. Bil. Dergisi, vol. 7, no.1, s. 48-56,1995.
5. M. S. Mamiş and M. Köksal, "Some renovations in transient analysis of tramission lines by state-space techniques," Matematical and Computational Appl., vol. 1, no. 1, pp.181-190, 1996.
6. M. S. Mamiş and M. Köksal, "Computation of transmission line transients by using fast inverse Laplace transform," Matematical and Computational Appl., vol. 2, no. 2, pp.161-169, 1997.

ULUSAL BİLİMSEL TOPLANTILARDA SUNULAN VE BİLDİRİ KİTABINDA (PROCEEDİNGS) BASILAN BİLDİRİLER:

1. M. Köksal ve Y. Tokad, "Aktif RLC devrelerinde ilk koşulların belirlenmesi", TÜBİTAK, Müh. Arş. Grb., V. Bilim Kong. Tebliğleri, Elektrik Sek., s. 29-45, İstanbul, 29 Eylül - 2 Ekim, 1975.
2. M. Köksal, "Lineer sistemlerin analizinde kullanılan ve içinde kaynak fonksiyonların türevleri de bulunan durum denklemleri için yeni bir durum vektörü", TÜBİTAK, Müh. Arş. Grb., V. Bilim Kong. Tebliğleri, Elektrik Sek., s. 65-72, İstanbul, 29 Eylül - 2 Ekim, 1975.
3. M. Köksal, "İlk koşulların frekans alanı yöntemleriyle bulunması", TÜBİTAK, Müh. Arş. Grb.,VI. Bilim Kong. Tebliğleri, Elektrik Sek., s. 341-356, Çeşme-İzmir, 24-28 Ekim, 1977.
4. M. Köksal, "Periyodik sistemlerin bilgisayarla analizi", TÜBİTAK, VII. Bilim Kong. Tebliğleri, Elektrik Sek., s. 737-748, Kuşadası-Aydın, 29 Eylül - 3 Ekim, 1980.
5. M. Köksal, "Lineer olmayan sistemlerin periyodik çözümlerinin bilgisayar yardımıyla bulunması", I. Nasyonal Bilgisayar Destekli Tasarım Semp. Tebliğleri, s. 431-433, İzmir, 25-27 Nisan, 1984.
6. G. Tohumoğlu ve M. Köksal, "Fiziksel sistemlerin spectral analizi", TÜBİTAK II. Ulusal Makina Teorisi Semp. Tebliğleri, s. 407-420, 22-24 Eylül, 1986, Gaziantep.
7. M. Köksal, "Fiziksel sistemlerin benzerliği ve mekanik sistemlerin genel sistem teorisiyle incelenmesi", TÜBİTAK II. Ulusal Makina Teorisi Semp. Tebliğleri, s. 427-441, 22-24 Eylül, 1986, Gaziantep.
8. M. Köksal, "Zamanla değişen sistemlerin komütativitesi için genel koşullar", Elektrik Müh. II. Ulusal Kong. Tebliğleri, vol. 2/2, s. 566-569, ODTÜ-Ankara, 23-25 Eylül, 1987.
9. M. Köksal, "İlk koşulların komütativiteye ve komütativitenin sistem duyarlılığına etkileri", Elektrik Müh. II. Ulusal Kong. Tebliğleri, vol. 2/2, s. 570-573, ODTÜ-Ankara, 23-25 Eylül, 1987.
10. A. Nacaroğlu ve M. Köksal, "İdeal anahtarlanmış kapasitör devrelerinin analizi", Elektrik Müh. II. Ulusal Kong. Tebliğleri, vol. 2/2, s. 558-561, ODTÜ-Ankara, 23-25 Eylül, 1987.
11. T. Kılcı ve M. Köksal, "Doğru akım motorlarının yarı iletken sürücülerle kontrolü ve simulasyonu", Elektrik Müh. II. Ulusal Kong. Tebliğleri, vol. 2/2, s. 720-723, ODTÜ-Ankara, 23-25 Eylül, 1987.
12. M. Köksal ve E. Küpeli, "Periyodik sinyaller ile uyarılmış lineer olmayan sistemlerin analizi için çabuk yakınsayan yeni bir metot", XI. Ulusal Yöneylem Araştırması Kong. Bildiri Kitabı, cilt 2., s. XV. 30, Marmara Üniv., Sultanahmet-İstanbul, 23-24 Eylül, 1987.
13. S. Günsoy ve M. Köksal, "Nükleer Manyetik Rezonans (NMR) kesit görüntüleme tekniği ve diğer kesit görüntüleme teknikleri ile karşılaştırılması", I. Ulusal Medikal Fizik Kong., Cerrahpaşa Tıp Fak., Cerrahpaşa- İstanbul, 8-9 Ekim, 1987.
14. M. Köksal, "Zamanla değişen sistemlerde durum geçiş matrisinin analitik ve nümerik yollarla hesaplanması", Ülkemizin Kalkınmasında Mühendisliğin Rolü Semp. Bildirileri, s. 388-397, Yıldız Üniv., Yıldız-İstanbul, 20-24 Haziran, 1988.
15. M. Köksal, "Dördüncü mertebeden sistemlerin ve Euler sistemlerin komütativitesi", Ülkemizin Kalkınmasında Mühendisliğin Rolü Semp. Bildirileri, s. 398-3408, Yıldız Üniv., Yıldız-İstanbul, 20-24 Haziran, 1988.
16. F. Yılmaz ve M. Köksal, "Zamanla periyodik olarak değişen lineer sistemlerin kararlılık analizi", Ülkemizin Kalkınmasında Mühendisliğin Rolü Semp. Bildirileri, s. 409-415, Yıldız Üniv., Yıldız -İstanbul, 20-24 Haziran, 1988.
17. A.. Nacaroğlu ve M. Köksal, "Anahtarlanmış kapasitör devrelerinin tasarımında en uygun anahtar sayısı", Ülkemizin Kalkınmasında Mühendisliğin Rolü Semp. Bildirileri, s. 337-346, Yıldız Üniv., Yıldız-İstanbul, 20-24 Haziran, 1988.
18. G. Tohumoğlu ve M. Köksal, "Lineer olmayan periyodik titreşimlerin spektral analiz yöntemleriyle bulunması", I. Ulusal Makina Teorisi Semp. Tebliğleri, s. 379-387, Foça-İzmir, 12-14 Ekim, 1988.
19. S. Herdem ve M. Köksal, "Parça parça doğrusal veya dışarıdan kontrollu elemanlar içeren devrelerin peryodik çözümleri için yeni bir metod", Elektrik Müh. V. Ulusal Kong. Tebliğleri, s. 39-44, KTÜ Trabzon, 13-18 Eylül 1993.
20. M. S. Mamiş ve M. Köksal, "İletim hatlarında yıldırım düşmesi durumunda meydana gelen geçici rejimlerin durum uzayı tekniği ile incelenmesi", Elektrik Müh. 6. Ulusal Kong. Tebliğ Kitabı: Elektrik, s. 17-20, Bursa, 11-17 Eylül, 1995.
21. G. Tohumoğlu ve M. Köksal, "Lineer olmayan sistemlerin peryodik çözümlerinin genişletilmiş spektral analiz yöntemiyle bulunması", Elektrik Müh. 6. Ulusal Kong. Tebliğ Kitabı: Bilgisayar, s. 1047-1050, Bursa, 11-17 Eylül, 1995.
22. S. Herdem ve M. Köksal, "Güç elektroniği devrelerinin durum uzayı tekniği kullanılarak sürekli hal analizi için yeni bir yaklaşım", Elektrik Müh. 6. Ulusal Kong. Tebliğ Kitabı: Elektrik, s. 367-370, Bursa, 11-17 Eylül, 1995.
23. Y. Demir ve M. Köksal, "Güç elektroniği devrelerinin durum uzayı analizine uygun matematiksel modelleri", Elektrik Müh. 6. Ulusal Kong. Tebliğ Kitabı: Elektrik, s. 376-379, Bursa, 11-17 Eylül, 1995.
24. M. Köksal, "İteratif İşlemlerde hata hesabı", Elektrik Müh. 6. Ulusal Kong. Tebliğ Kitabı: Bilgisayar, s.1079-1100, Bursa, 11-17 Eylül, 1995.
25. S. Herdem, Y. Demir ve M. Köksal, "Lineer olmayan dinamik sistemlerin analizi için yeni bir yaklaşım", I. Sistem Müh. ve Uygulamalar Semp., Bildiriler II, s. 666-672, Kara Harp Okulu, Ankara, 12-13 Ekim, 1995.
26. H. Z. Aliyev, M. Köksal, S. Herdem ve İ. Aksoy, "Yüklenmiş dielektrik yüzeylerde yalıtkan sıvı damlasının yayılması", S. Demirel Üniv. IX. Müh. Semp., Elektronik ve Haberleşme Müh. Bildirileri Kitabı, s. 15-18,Isparta, 29-31 Mayıs, 1996.
27. S. Herdem, Y. Demir ve M. Köksal, "Histerezis çevrimli endüktans içeren devrelerin analizi", S. Demirel Üniv. IX. Müh. Semp. Elektronik ve Haberleşme Müh. Bildirileri Kitabı, s. 101-106, Isparta, 29-31 Mayıs, 1996.
28. H. Z. Aliyev, M. Köksal, and M. S. Mamiş, "Temperature distribution in composite resistors under short time loadings", Proc. of the 1st Symp. on Matematical and Computational Appl., pp. 12-15, Manisa, Turkey, November 19-21, 1996.
29. M. S. Mamiş and M. Köksal, "Some renovations in transient analysis of transmission lines by state-space techniques", Proc. of the 1st Symp. on Matematical and Computational Appl., vol.1, no.1, pp. 181-190, Manisa, Turkey, November 19-21, 1996.
30. S. E. Hamamcı ve M. Köksal, "Anolog ve dijital filtrelerin bilgisayar kullanılarak tasarımı", 4. Bilgisayar-Haberleşme Semp. Bildiriler Kitabı, s. 32-35, Buttim-¬Bursa, 11-15 Aralık, 1996.
31. M. Poyraz, Y. Demir ve M. Köksal "Lineer olmayan sistemlerin bond graf modelinden yararlanarak durum ve çıkış denklemlerini veren bir algoritma," 4. Bilgisayar-Haberleşme Semp. Bildiriler Kitabı, s.143-146, Buttim-Bursa, 11-15 Aralık, 1996.
32. Y. Demir, S. Herdem ve M. Köksal, "Anahtarlar içeren sistemlerin durum uzayı analizi için yeni bir algoritma", 4. Bilgisayar-Haberleşme Semp. Bildiriler Kitabı, s.159-162, Buttim-Bursa, 11-15 Aralık, 1996.
33. M. S. Mamiş ve M. Köksal, "Enerji iletim hatları geçici rejimlerinin analizi için bir bilgisayar programı LPTLAP", 4. Bilgisayar-Haberleşme Semp. Bildiriler Kitabı, s.195-198, Buttim-¬Bursa, 11-15 Aralık, 1996.
34. H. Z. Aliyev, T. Abbasov, M. Köksal ve S. Herdem "Suyun ve teknolojik sıvıların elektromanyetik alanla temizlenmesi", İçme Suyu Semp. Tebliğler, s. 289-295, İSKİ-İstanbul, 7-10 Ekim, 1996.
35. T. Abbasov, M. Köksal, S. E. Hamamcı ve A. Kaygusuz, "Teknolojik proseslerin devre sentezi teorisi kullanılarak modellenmesi", SIU'97-Sinyal işleme ve Uygulamaları Kurultayı Bildiriler Kitabı, II. Cilt, s. 891-895, (Boğaziçi Üniv.), Kuşadası-Aydın, 1-3 Mayıs 1997.
36. S. E. Hamamcı ve M. Köksal, "Bant geçiren Bessel filtrelerin tasarımı için yeni bir yöntem", Elektrik-Elektronik Bilgisayar Müh. 7. Ulusal Kong. Tebliğleri, cilt 1, s. 346-348, ODTÜ, Ankara, 8-14 Eylül, 1997.
37. H. Aliyev, M. Köksal, Y. Önal ve T. Seçkin, "Silikajel+polimid compozit sisteminin eletktret özelliği", Elektrik-Elektronik Bilgisayar Müh. 7. Ulusal Kong. Tebliğleri, cilt 2, s. 622-624, ODTÜ, Ankara, 8-14 Eylül, 1997.
38. H. Aliyev, M. Köksal, Y. Önal ve T. Seçkin, "Silikajel+polimid kompozit sisteminin eletktrik yüklü durumunun termal analizi", Elektrik-Elektronik Bilgisayar Müh. 7. Ulusal Kong. Tebliğleri, cilt 2, s. 625-628, ODTÜ, Ankara, 8-14 Eylül, 1997.
39. M. S. Mamiş ve M. Köksal, "İletim hatları geçici rejimlerinin hızlı ters Laplace dönüşümü ile analizi", Elektrik-Elektronik Bilgisayar Müh. 7. Ulusal Kong. Tebliğleri, cilt 2, s. 583-586, ODTÜ, Ankara, 8-14 Eylül, 1997.
40. M. S. Mamiş, M. Köksal, "Frekans bağımlı iletim hatları, için toplu parametreli bir model", Elektrik-Elektronik-Bilgisayar Müh. 7. Ulusal Kong. Tebliğleri, cilt 2, s. 587-590, ODTÜ, Ankara, 8-14 Eylül, 1997.
41. H. Z. Aliyev, M. Köksal ve S. Herdem, "On the quasi-unidimensional approimation of dynamics of the occurance of conductance channels in polymer dielectrics", ULIBTK'97, II. Ulusal Isı Bilimi ve Tekniği Kong. Bildirileri, cilt 1, s. 143-148, Edirne, 17-19 Eylül, 1997.
42. H. Z. Aliyev, M. Köksal, S. Herdem ve N. Özbey, “Kuvvetli elektrik alanların dielektriklerin elektriksel iletkenliğine etkisi”, ELMEKSEM’97 IV. Elektromekanik Semp. Bildiriler Kitabı, s. 139-141, Bursa, 17-21 Aralık 1997.
43. T. Abbasov, S. Herdem ve M. Köksal, “Manyetik sıvıların elektromanyetik alanda hareketi”, ELMEKSEM’97 IV. Elektromekanik Semp. Bildiriler Kitabı, s. 174-177, Bursa, 17-21 Aralık 1997.
44. S. Herdem, T. Abasov ve M. Köksal, “Petrol içeren atık suların elektromanyetik filtrelerle temizlenmesi”, GAP 2. Müh. Kong. Bildiriler Kitabı, s. 620-623, Harran Üniv. Yayın no: 4, Urfa, 21-23 Mayıs 1998.
45. S. Herdem, M. Köksal ve T. Abbasov, “Mıknatıslanmış dolgulu yataklarda kitle iletiminin matematiksel modeli", UKMK-3 Üçüncü Ulusal Kimya Müh. Kong. Bildiri Kitabı, cilt.1, s. 641-645, Atatürk Üniv., Erzurum, 1-4 Eylül, 1998.
46. S. E. Hamamcı ve M. Köksal, “Alçak geçiren prototip filtrelerden diğer tiplerdeki filtre transfer fonksiyonu katsayılarının eldesi”, Elektrik-Elektronik-Bilgisayar Müh. 8. Ulusal Kong. Bildiriler Kitabı, cilt 1, s. 52-54, TMMOB Elektrik Mühendisleri Odası-Gaziantep Üniv., 6-12 Eylül, 1999.
47. S. Herdem, T. Abbasov ve M. Köksal, “Nonlineer elektrik devrelerinde geçici rejimlerin diferansiyel Taylor dönüşümü ile incelenmesi”, Elektrik-Elektronik-Bilgisayar Müh. 8. Ulusal Kong. Bildiriler Kitabı, cilt 1, s. 59-62, TMMOB Elektrik Mühendisleri Odası-Gaziantep Üniv., 6-12 Eylül, 1999.
48. M. Köksal, “Elemanların aktifliği ve pasifliği hakkında”, Elektrik-Elektronik-Bilgisayar Müh. 8. Ulusal Kong. Bildiriler Kitabı, cilt 1, s. 63-66, TMMOB Elektrik Mühendisleri Odası-Gaziantep Üniv., 6-12 Eylül, 1999.
49. Y. Demir, R. Tuntaş ve M. Köksal, “Anahtarlamalı devrelerin yapay sinir ağları ile analizi”, Elektrik-Elektronik-Bilgisayar Müh. 8. Ulusal Kong. Bildiriler Kitabı, cilt 2, s. 673-676, TMMOB Elektrik Mühendisleri Odası-Gaziantep Üniv., 6-12 Eylül, 1999.
50. H. Z. Aliyev, M. S. Mamiş ve M. Köksal, “Tek polariteli korona alanında yük yoğunluğunun ve elektrik alan şiddetinin değişimi”, Elektrik-Elektronik-Bilgisayar Müh. 8. Ulusal Kong. Bildiriler Kitabı, cilt 2, s. 707-710, TMMOB Elektrik Mühendisleri Odası-Gaziantep Üniv., 6-12 Eylül, 1999.
51. M. Köksal, M. S. Mamiş ve H. Z. Aliyev, “Korona boşalması için yeni bir simülasyon modeli”, Elektrik-Elektronik-Bilgisayar Müh. 8. Ulusal Kong. Bildiriler Kitabı, cilt 2, s. 729-732, TMMOB Elektrik Mühendisleri Odası-Gaziantep Üniv., 6-12 Eylül, 1999.
52. H. Z. Aliyev, M. Köksal ve G. T. Kerimova, "Gaz boşalmasına maruz kalmış polimer ve kompozit materyallerin yüzey aktivasyonunda iyon difüzyonunun rolü", MAMTEK'99 Makina Malzemesi ve İmalat Teknolojisi Semp. Bildiriler Kitabı, s. 310-313, Celal Bayar Üni. Müh. Fak., Manisa, 17-19 Kasım, 1999.
53. S. E. Hamamcı, A.Uçar ve M. Köksal, ‘Değişken bobinli bir Chua devresinde deney ve simülasyonla kaosun gözlenmesi’, ELECO’ 2000 Elektrik-Elektronik-Bilgisayar Müh. Semp. Bildiriler Kitabı, cilt: Elektronik-Bilgisayar, s. 43-47, Uludağ Üniv., Bursa, 8-12 Kasım 2000.
54. A. Memedov, M. Köksal ve S. E. Hamamcı, “Çift alan sargılı DC motorun harmonik doğrusallaştırma ile lojik kontrolü”, Elektrik-Elektronik-Bilgisayar Müh. 9. Ulusal Kong. Bildiriler Kitabı, cilt 1, s. 146-150, TMMOB Elektrik Mühendisleri Odası - Kocaeli Üniv., 19-23 Eylül, 2001.
55. S. Herdem, T. Abbasov ve M. Köksal, ‘‘Lineer olmuyan elektrik devrelerinin DT yöntemiyle analizi’’, Elektrik-Elektronik-Bilgisayar Müh. 10. Ulusal Kong. Bildiriler Kitabı, cilt 2, s. 271-274, TMMOB Elektrik Mühendisleri Odası – Lütfi Kırdar Kongre ve Sergi Sarayı, İstanbul, 18-21 Eylül, 2003.
56. S. E. Hamamcı ve M. Köksal, ‘’Zaman gecikmeli sistemler için daha iyi performansa sahip PI kontrolör tasarımı’’, TOK’2005 Otomatik Kontrol Ulusal Toplantısı Bildiriler Kitabı, s. 17-22, Otomatik Kontrol Türk Milli Komitesi, İTÜ, Maslak, İstanbul, 2-3 Haziran 2005.
57. S. Herdem, T. Abbasov ve M. Köksal, ‘’Manyetik filtrelerde tutulan parçacıkalrın manyetik alınganlığının önemi’’, Elektrik-Elektronik-Bilgisayar Müh. 11. Ulusal Kong. Bildiriler Kitabı, cilt 1, s. 44-47, TMMOB Elektrik Mühendisleri Odası – Grand Cevahir Otel Kongre Merkezi, Şişli-İstanbul, 22-25 Eylül, 2005.
58. F. Yenici ve M. Köksal, ‘’Model referans uyarlamalı kontrol ile kutupları sabit bir DC motorun konum kontrolu’’, TOK’2006 Otomatik Kontrol Ulusal Toplantısı Bildiriler Kitabı, s. 555-560, Otomatik Kontrol Türk Milli Komitesi, TOBB Ekonomi ve Teknoloji Üniversitesi, Ankara, 6-8 Kasım 2006.

ARAŞTIRMA RAPORLARI:

1. M. Köksal ve Y. Tokad, On the Number and Locations of Switches to Freeze the States of RC and RL Networks, TÜBİTAK, Marmara Arş. Enst., Gebze-Kocaeli, Elektronik Arş. Ün., Rapor no : UI-75/02, Şubat 1975.
2. M. Köksal, Use of Periodically Operated Swiches in Electrical Networks, TÜBİTAK Marmara Arş. Enst., Gebze-Kocaeli, Elektronik Arş. Ün., Rapor no UI-75/07, Mart 1975.
3. M. Köksal ve Y. Tokad, Equivalence Between Fast-Periodic Switched Networks and Time-Invariant Networks, TÜBİTAK, Marmara Arş. Enst., Gebze-Kocaeli, Elektronik Arş. Ün., Rapor no : UI-75/13, Mayıs 1975.
4. M. Köksal ve Y. Tokad, On the Solution of Linear Circuits Containing Periodically Operated Switches, TÜBİTAK, Marmara Arş. Enst., Gebze-Kocaeli, Elektronik Arş. Ün., Rapor no : UI-75/15, Aralık 1975.
5. M. Köksal and Ö. Hüseyin, On the State Equations of Active RLC Networks, Report, METU, Electrical Engineering Dept., Ankara, 1976.
6. M. Köksal ve Y. Tokad, Determination of Initial Conditions in Active RLC Networks, TÜBİTAK, Marmara Arş. Enst., Gebze-Kocaeli, Elektronik Arş. Ün., Rapor no : 2, Haziran 1976.
7. M. Köksal ve Y. Tokad, State-Space Formulation of Linear Circuits Containing Periodically Operated Switches, TÜBİTAK, Marmara Arş. Enst., Gebze-Kocaeli, Elektronik Arş. Ün., Rapor no: 2, Ekim 1977.
Elemanların Uluslararası Dergi ve Sempozyumlardaki Yayın ve Tebliğleri, TÜBİTAK, Marmara Arş. Enst., Gebze-Kocaeli, Elektronik Arş. Ün., Rapor no: UTDY-3, Yayın no: 8, Mayıs 1977.
8. M. Köksal, On the State Equations of Nonlinear Networks and the Uniqueness of Their Solutions, ODTÜ, Gaziantep Müh. Fak., Elektrik-Elektronik Müh. Böl., Devreler ve Sistemler, Teknik Rapor no: GEEE/CAS-84/1, Ocak 1984.
9. M. Köksal, A Computer Program for the General Solutions of Periodcally Time-Varying Systems: MAINLN, ODTÜ, Gaziantep Müh. Fak., Elektrik-Elektronik Müh. Böl., Devreler ve Sistemler, Teknik Rapor no: GEEE/CAS-84/2, Ocak 1984.
10. M. Köksal ve A. Demircan, Akademik Personelin Maaşlarını Hesaplamak için Bordro Programı: APEB, ODTÜ, Gaziantep Müh. Fak., Elektrik-Elektronik Müh. Böl., Bilgisayar Bilimleri, Teknik Rapor no: GEE/CAS-84/1, Kasım 1984.
11. M. Köksal, A Survey on the Commutativity of Time-Varying Systems, ODTÜ, Gaziantep Müh. Fak., Elektrik-Elektronik Müh. Böl., Devreler ve Sistemler, Teknik Rapor no: GEEE/CAS-85/1, Haziran 1985.
12. M. Köksal, Brute-Force Solution of Periodically Excited Nonlinear State Equations by Runge-Kutta Method, Gaziantep Üniv., Elektrik-Elektronik Müh. Böl., Devreler ve Sistemler, Teknik Rapor no: EEE/CAS-92/1, Aralık 1992.
13. M. Köksal, A Computer Program to Find Steady-State Periodic Solutions of Nonlinear Systems: MAINNL, Gaziantep Üniv., Elektrik-Elektronik Müh. Böl., Devreler ve Sistemler, Teknik Rapor no: EEE/CAS-93/1, Şubat 1993.
14. M. Köksal, S. Herdem, and Y. Demir, An Exhaustive Study on the State Space Analysis of Switched-Analog Circuits by Piecewise Linearization, İnönü Üniv., Teknik Rapor no: EEE/CAS-98/1, June 1998.
15. M. Koksal, T. Seçgin, M. S. Mamiş, and Y. Önal, Kuvvetli Elektrik Alanları ve Farklı Elektrik Boşalmaları Etkisine Maruz Kalmış Kompozit Sistemlerin Elektrofiziksel Özelliklerinin İncelenmesi, İnönü Üniv. Araştırma Projesi Raporu, No: 1998/17.
16. 16. T.C. Başbakanlık Devlet Planlama Teşkilatı Müsteşarlığı, Doğu Anadolu Projesi Ana Planı, Mevcut Durum ve Analizi, Cilt III, Sanayi ve Hizmetler: Enerji, http://ekutup.dpt.gov.tr/v bolgesel/dap/durum3.pdf, pp. 047-067, 2000.
17. M. Köksal, Ş. E. Öner, and M. Sağbaş, Active Filter Design Using CSBA (Current Differencing Buffer Amplifier), Fatih Univ., Research Project Report No: P50060501, Dec. 13, 2006.

TEZLERi:

1. M. Köksal, General Approximation Theory for Electrical Filter Networks and Theory of Parametric Filters, Master Tezi, ODTÜ, Elektrik Müh. Böl., Ankara, Nisan 1972.
2. M. Köksal, Analysis and Appl. of Linear Circuits Containing Periodically Operated switches, Doktora Tezi, ODTÜ, Elektrik Müh. Böl., Ankara, Mayıs 1975.

SEMİNER NOTLARI:

1. M. Köksal, Dur-Geç Süzgeçler, ODTÜ, Gaziantep Müh. Fak., Elektrik Müh. Böl., 1977-78 Ders Yılı Seminerleri, 13 Nisan, 1978.
2. M. Köksal, N-Yollu Süzgeçler, ODTÜ, Gaziantep Müh. Fak., Elektrik Müh. Böl.,1977-78 Ders Yılı Seminerleri, 20 Nisan, 1978.
3. M. Köksal, Özsalınımlı Geçiş Devreleri, ODTÜ, Gaziantep Müh. Fak., Elektrik Müh. Böl., 1977-78 Akademik Yılı Seminerleri, 27 Nisan, 1978.