Dr. Murat Yucel

Full Professor
Gazi University, Turkiye

Highest Degree
Ph.D. in Computer Science from Gazi University, Turkiye

My URL
https://livedna.org/90.4897

Share this Profile

Area of Interest:

Physical Science Engineering
Optical Amplifiers
Fiber Sensor Technology
Artificial Neural Network
Electrical/Electronic Engineering

Selected Publications

  1. Yigit, E. and M. Yucel, 2022. Three-stage six-pass EDFA preamplifier design and EDFA parameters’ optimization. Opt. Quantum Electron., Vol. 54. 10.1007/s11082-021-03404-x.
    CrossRef  |  Direct Link  |  

  2. Gurkaynak, I.A., T.F. Al-Mashhadani, M.K.S. Al-Mashhadani, M.H. Ali and A.E. Gunduz et al., 2022. An efficient wide flatness gain bandwidth with parallel hybrid fiber amplifier. Microwave Opt. Technol. Lett., 64: 251-258.
    CrossRef  |  Direct Link  |  

  3. Kipriksiz, S.E. and M. Yücel, 2021. Tilted fiber Bragg grating design for a simultaneous measurement of temperature and strain. Opt. Quantum Electron., Vol. 53. 10.1007/s11082-020-02609-w.
    CrossRef  |  Direct Link  |  

  4. Gurkaynak, I.A., M.K.S. Al-Mashhadani, M.H. Ali, T.F. Al-Mashhadani, A.E. Gunduz, M. Yucel and H.H. Goktas, 2021. Widely flatness gain bandwidth with double pass parallel hybrid fiber amplifier. Opt. Quantum Electron., Vol. 53. 10.1007/s11082-021-03021-8.
    CrossRef  |  Direct Link  |  

  5. Akcesme, O., M. Yucel and M. Burunkaya, 2021. The design and implementation of a software based gain control for EDFAs used in long-haul optical networks. Optik, Vol. 239. 10.1016/j.ijleo.2021.166850.
    CrossRef  |  Direct Link  |  

  6. Yucel, M., Z. Aslan and M. Burunkaya, 2020. Classification of the temperature-dependent gain of an erbium-doped fiber amplifier by using data mining methods. Optik, Vol. 208. 10.1016/j.ijleo.2020.164515.
    CrossRef  |  Direct Link  |  

  7. Burunkaya, M. and M. Yucel, 2020. Measurement and control of an incubator temperature by using conventional methods and Fiber Bragg grating (FBG) based temperature sensors. J. Med. Syst., Vol. 44. 10.1007/s10916-020-01650-2.
    CrossRef  |  Direct Link  |  

  8. Al-Mashhadani, T.F., M.K.S. Al-Mashhadani, H.H. Goktas, M. Yucel and F.V. Celebi, 2020. Widely triple Brillouin frequency shift multiwavelength Brillouin erbium fiber laser. Opt. Quantum Electron., Vol. 52. 10.1007/s11082-020-02326-4.
    CrossRef  |  Direct Link  |  

  9. Yucel, M., Y.A. Ozoglu, A.E. Gunduz, H.H. Goktas and M. Burunkaya, 2019. Determination of the temperature independent quiescent regions for different types of erbium-doped fibers. Optik, 183: 619-628.
    CrossRef  |  Direct Link  |  

  10. Yucel, M. and O. Koyuncu, 2019. Design and implementation of a passive edge filter with high bandwidth and slope. Microwave Opt. Technol. Lett., 61: 2572-2578.
    CrossRef  |  Direct Link  |  

  11. Al-Mashhadani, T.F., M.K.S. Al-Mashhadani, M. Yucel and H.H. Goktas, 2019. Influence of bidirectional cavity structure on the Brillouin stokes signal characteristics in ring BFL. Optik, 185: 359-363.
    CrossRef  |  Direct Link  |  

  12. Yucel, M. and N.F. Ozturk, 2018. Real-time monitoring of railroad track tension using a fiber Bragg grating-based strain sensor. Instrum. Sci. Technol., 46: 519-533.
    CrossRef  |  Direct Link  |  

  13. Yucel, M. and M. Torun, 2018. Simplified fiber Bragg grating-based temperature measurement system design with enhanced high signal-to-noise ratio. Microwaves Opt. Technol. Lett., 60: 965-969.
    CrossRef  |  Direct Link  |  

  14. Yücel, M., H.H. Göktaş, M. Yücel, N.F. Öztürk and A.E. Gündüz, 2017. Experimental analysis of the temperature dependence of the Brillouin gain spectrum in short-length single-mode fiber. Turk. J. Electron. Eng. Comput. Sci., 25: 3881-3891.
    CrossRef  |  Direct Link  |  

  15. Yucel, M., F.V. Celebi, M. Torun and H.H. Goktas, 2017. Adaptive neuro-fuzzy based gain controller for erbium-doped fiber amplifiers. Adv. Electron. Comput. Eng., 17: 15-20.
    CrossRef  |  Direct Link  |  

  16. Basak, H. and M. Yücel, 2017. Effect of burnishing parameters on surface roughness and hardness. Mater. Test., 59: 57-63.
    CrossRef  |  Direct Link  |  

  17. Yücel, M. and D.A.M. Mustafa, 2016. Optimization with genetic algorithm of temperature-dependent fiber length of L-band EDFA gain. Turk. J. Electron. Eng. Comput. Sci., 24: 1034-1043.
    CrossRef  |  Direct Link  |  

  18. Yucel, M., H.H. Goktas and F.V. Celebi, 2014. Design and implementation of fuzzy logic based automatic gain controller for EDFAs. Optik, 125: 5450-5453.
    CrossRef  |  Direct Link  |  

  19. Yucel, M., F.V. Celebi and H.H. Goktas, 2013. Simple and efficient ANN model proposed for the temperature dependence of EDFA gain based on experimental results. Opt. Laser Technol., 45: 488-494.
    CrossRef  |  Direct Link  |  

  20. Yucel, M. and Z. Aslan, 2013. The noise figure and gain improvement of double-pass C-band EDFA. Microwaves Opt. Technol. Lett., 55: 2525-2528.
    CrossRef  |  Direct Link  |  

  21. Yucel, M., H.H. Goktas and G. Akkaya, 2012. Optimization of the three stages L band EDFA. Proceedings of the 20th Confrence of Signal Processing and Communications Applications, April 18-20 SIU Pages: 1-4.
    Direct Link  |  

  22. Yucel, M., 2012. Increase of transmission distance using edfa and module design for free space optics applications. Gazi Uni. J. Sci., 25: 119-125.
    Direct Link  |  

  23. Yucel, M. and H.H. Goktas, 2012. Examination of temperature dependence of double pass L band erbium doped fiber amplifier. J. Fac. Eng. Archit. Gazi Univ., 27: 237-243.
    Direct Link  |  

  24. Celebi, F.V., M. Yucel and S. Yigit, 2012. Optical gain modelling in type I and type II quantum cascade lasers by using adaptive neuro-fuzzy inference system. SIU IEProccedings of the 20th Conference of Signal Processing and Communications Applications Conference, EE 20th Signal Processing and Communications Applications Conference, April 18-20,2012, SIU Pages: 1-4.
    CrossRef  |  Direct Link  |  

  25. Celebi, F.V., M. Yucel and H.H. Goktas, 2012. Fuzzy logic based device to implement a single CAD model for a laser diode based on characteristic quantities. Optik, 123: 471-474.
    CrossRef  |  Direct Link  |  

  26. Yucel, M., H.H. Goktas and F.V. Celebi, 2011. The effect of pump laser wavelength change on the temperature dependence of EDFA. Proceedings of the IEEE 19th Confrience Signal Processing and Communications Applications, April 20-22, 2011, IEEE Page: 238-241.
    CrossRef  |  Direct Link  |  

  27. Yucel, M., H.H. Goktas and F.V. Celebi, 2011. Temperature independent length optimization of L-band EDFAs providing flat gain. Optik-Int. J. Light Electron Opt., 122: 872-876.
    CrossRef  |  

  28. Yucel, M., 2011. Fuzzy logic-based automatic gain controller for EDFA. Microwave Optical Technol. Lett., 53: 2703-2705.
    Direct Link  |  

  29. Yucel, M., H.H. Goktas and O. Ozkaraca, 2010. Temperature dependence of noise figure in the erbium doped fiber amplifier. J. Fac. Eng. Archit. Gazi Univ., 25: 635-641.
    Direct Link  |  

  30. Yucel, M. and H.H. Goktas, 2008. Determination of minimum temperature coefficient of C band EDFA. J. Applied Sci., 8: 4464-4467.
    CrossRef  |  Direct Link  |  

  31. Yucel, M. and H.H. Goktas, 2008. C band erbium doped fiber amplifier as a flat gain optical amplifier. Proceedings of the 16th Confrence of Signal Processing and Communication Application, April 20-22, 2008, Didyma, Aydın-Turkey, pp: 1-4.

  32. Goktas, H.H. and M. Yucel, 2008. A fuzzy logic based device for the determination of temperature dependence of EDFAs. Microwave Opt. Technol. Lett., 50: 2331-2334.
    CrossRef  |  Direct Link  |  

  33. Yucel, M. and H.H. Goktas, 2007. Gain flattening configurations at the L band erbium doped fiber amplifiers. Proceedings of the 15th Confrence Signal Processing and Communications Applications, June 11-13, 2007 Page: 1-4.
    CrossRef  |  Direct Link  |  

  34. Yucel, M. and H.H. Goktas, 2007. Design of gain flattenned ultra-wideband hybrid optical amplifier. J. Fac. Eng. Archit. Gazi Univ., 22: 863-868.
Member since October, 2012