BROADBAND MULTI-SECTION STEPPED TAPERED MICROSTRIP TRANSFORMERS DESIGN USING SEEKER OPTIMIZATION ALGORITHM
Yıl 2022,
Cilt: 5 Sayı: 2, 75 - 79, 31.12.2022
Uğurcem Hasar
,
Mona Alfaqawı
Öz
This work applies an evolutionary searching algorithm of the Seeker Optimization Algorithm for designing multi-band multi-section stepped tapered microstrip lines that maximally match real load impedance to a transmission line in a pre-described range of frequencies. Seeker Optimization algorithm has been verified to be a very effective algorithm in finding the solutions for such multi-objective functions. Herein the design process aims to select the values of the matching impedances between real load and transmission line among a continuous range of values under tapering constraints. The obtained results have been verified by PUFF simulator and the design parameters have been calculated using the PUFF microwave simulator.
Kaynakça
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- Reference4 Goudos S. “Design of microwave broadband absorbers using a self-adaptive differential evolution algorithm,” Int. J.RF and Microwave CAE 2009.
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- Reference7 Pozar D. M. “ Microwave Engineering,” 3rd Edition, Wiley, New York, 2005.
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- Reference9 Mhala M. M., Desai P. and Kumar G. “ Broadband Impedance Matching Netowrk for RF Power Amplifiers,”, 2008.
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- Reference13 Rengoli C. “ Impedance Matching by Using Multi-stub System ,” International conference on simulation, modeling and optimization, 2007.
- Reference14 Ulker E. D.,Ulker S. “ Application of Particil Swarm Optimization to Microwave Tapered Microstrip Lines,”,CSEIJ, Vol. 4, No. 1, February, 2014.
- Reference15 K. Guney and S. Basbug, "Seeker optimization algorithm for interference suppression of linear antenna arrays by controlling position‐only, phase‐only, and amplitude‐only," International Journal of RF and Microwave Computer-Aided Engineering, vol. 21, no. 5, pp. 505-518, 2011.
- Reference16 M. Wooldridge and N. R. Jennings, "Intelligent agents: Theory and practice," The Knowledge Engineering Review, vol. 10, no. 2, pp. 115-152, 1995.
- Reference17 J. D. Hewlett, B. M. Wilamowski and G. Dundar, "Optimization Using a Modified Second-Order Approach With Evolutionary Enhancement," IEEE Transactions on Industrial Electronics, vol. 55, no. 9, pp. 3374-3380, 2008.
- Reference18 V. Kumar and F. Sahin, "Cognitive maps in swarm robots for the mine detection application," in SMC'03 Conference Proceedings. 2003 IEEE International Conference on Systems, Man and Cybernetics., Washington, DC, 2003.
- Reference19 B. Raphael and I. F. C. Smith, "A direct stochastic algorithm for global search," Applied Mathematics and Computation, vol. 146, no. 2-3, pp. 729-758, 2003.
- Reference 20 Wedge S. W., Compton R. C., Rutledge D. B., Gerstlauer A. PUFF: Computer Aided Design for Microwave Integrated Circuits, version 2.1, California Institute of Technology, Pasadena CA 1998.
Yıl 2022,
Cilt: 5 Sayı: 2, 75 - 79, 31.12.2022
Uğurcem Hasar
,
Mona Alfaqawı
Kaynakça
- Reference1 Cui, S., D. Weile, and J. Volakis, “Novel planar electromagnetic absorber designs using genetic algorithms,” IEEE Trans. on Antennas and Propagation, Vol. 54, 18111817, 2006.
- Reference2 Chammani S, Mirtabheri S, Shooredeli M,“Design of a very thin wide band absorbers using modified locaol best particle swarm optimization ”. AEU-Int. J. Electron Commun 2008,62:549-556.
- Reference3 Goudos S, Zaharis ZD, Baltzis KB, Hilas CS, Sahalos JN, “A comparative study of a particle swarm optimization and differential evolution on radar absorbing materials design for EMC applications”, Electromagnetic Compatibility-EMC Europe 2009.
- Reference4 Goudos S. “Design of microwave broadband absorbers using a self-adaptive differential evolution algorithm,” Int. J.RF and Microwave CAE 2009.
- Reference5 Jiang LY,Li XY, Zhang J.“Design of high performance multilayer microwave absorbers using fast genetic algorithm”, Science in china Series E-Technological Sciences, pp. 2749-2757,2009.
- Reference6 Dib, N, Asi M, Sabbah M, “On the optimal design of multilayer microwave absorbers,” Progress In Electromagnetics Research C, Vol. 13, 171-185, 2010.
- Reference7 Pozar D. M. “ Microwave Engineering,” 3rd Edition, Wiley, New York, 2005.
- Reference8 Khare R., Nema R. “Review of impedance Matching Networks For Bandwidth Enhancement,” IJETAE, Vol.2, January 2012.
- Reference9 Mhala M. M., Desai P. and Kumar G. “ Broadband Impedance Matching Netowrk for RF Power Amplifiers,”, 2008.
- Reference10 B. A. Munk “ Finite Antenna Arrays and FSS,” 2003.
- Reference11 A. A. R. Townsend “ The Smith Charts And Its Applications,” 1995.
- Reference12. Jianfie A., Kezhu S., Shuangxi Z., Junfeng Y. and Ping C. “ Design of Broadband Electrical Impedance Matching Network for Piezoelectric Ultrasound Transducer Based on Genetic Algorithm,” Sensors 2014.
- Reference13 Rengoli C. “ Impedance Matching by Using Multi-stub System ,” International conference on simulation, modeling and optimization, 2007.
- Reference14 Ulker E. D.,Ulker S. “ Application of Particil Swarm Optimization to Microwave Tapered Microstrip Lines,”,CSEIJ, Vol. 4, No. 1, February, 2014.
- Reference15 K. Guney and S. Basbug, "Seeker optimization algorithm for interference suppression of linear antenna arrays by controlling position‐only, phase‐only, and amplitude‐only," International Journal of RF and Microwave Computer-Aided Engineering, vol. 21, no. 5, pp. 505-518, 2011.
- Reference16 M. Wooldridge and N. R. Jennings, "Intelligent agents: Theory and practice," The Knowledge Engineering Review, vol. 10, no. 2, pp. 115-152, 1995.
- Reference17 J. D. Hewlett, B. M. Wilamowski and G. Dundar, "Optimization Using a Modified Second-Order Approach With Evolutionary Enhancement," IEEE Transactions on Industrial Electronics, vol. 55, no. 9, pp. 3374-3380, 2008.
- Reference18 V. Kumar and F. Sahin, "Cognitive maps in swarm robots for the mine detection application," in SMC'03 Conference Proceedings. 2003 IEEE International Conference on Systems, Man and Cybernetics., Washington, DC, 2003.
- Reference19 B. Raphael and I. F. C. Smith, "A direct stochastic algorithm for global search," Applied Mathematics and Computation, vol. 146, no. 2-3, pp. 729-758, 2003.
- Reference 20 Wedge S. W., Compton R. C., Rutledge D. B., Gerstlauer A. PUFF: Computer Aided Design for Microwave Integrated Circuits, version 2.1, California Institute of Technology, Pasadena CA 1998.