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T. Fortaki, L. Djouane, F. Chebara & A. Benghalia. (2008) Radiation of a rectangular microstrip patch antenna covered with a dielectric layer. International Journal of Electronics 95:9, pages 989-998.
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Shyam S Pattnaik, Dhruba C Panda & S Devi. (2002) Input Impedance of Circular Microstrip Antenna using Artificial Neural Networks. IETE Technical Review 19:3, pages 125-127.
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Cigdem Seckin Gurel & Erdem Yazgan. (2000) Resonant frequency of an air gap tuned circular disc microstrip antenna. International Journal of Electronics 87:8, pages 973-979.
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NURHAN KARABOGA, KERIM GUNEY & ALI AKDAGLI. (1999) A new effective patch radius expression obtained by using a modified tabu search algorithm for the resonant frequency of electrically thick circular microstrip antennae. International Journal of Electronics 86:7, pages 825-835.
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Rabindra K Mishra & Amalendu Patnaik. (1998) Design of Circular Microstrip Antenna using Neural Networks. IETE Journal of Research 44:1-2, pages 35-39.
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Articles from other publishers (17)
Anjani Kumar, Debanjali Sarkar & Taimoor Khan. (2023) Comparative Analysis of Machine Learning Techniques for Resonant Frequency Prediction for Printed Microstrip Antennas. Comparative Analysis of Machine Learning Techniques for Resonant Frequency Prediction for Printed Microstrip Antennas.
Xiaofeng Li, Zhongbao Wang & Shaojun Fang. (2015) An accurate effective radius formula based on taguchi method for calculating resonant frequency of electrically thin and thick circular patch antennas. Microwave and Optical Technology Letters 57:11, pages 2567-2572.
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Abhilasha Mishra, Ganesh Janvale, B. V. Pawar & A. J. Patil. (2011) The design of circular microstrip patch antenna by using Conjugate Gradient algorithm of ANN. The design of circular microstrip patch antenna by using Conjugate Gradient algorithm of ANN.
Abhilasha Mishra, Ganesh B. Janvale, Bhausaheb Vyankatrao Pawar & Pradeep Mitharam Patil. (2010) The Design of Circular Microstrip Patch Antenna by Using Quasi-Newton Algorithm of ANN. Journal of Electromagnetic Analysis and Applications 02:07, pages 444-449.
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K. Guney & N. Sarikaya. (2009) Comparison of adaptive-network-based fuzzy inference system models for resonant frequency computation of circular microstrip antennas. Journal of Communications Technology and Electronics 54:4, pages 369-380.
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Kerim Guney & Nurcan Sarikaya. (2008) CONCURRENT NEURO-FUZZY SYSTEMS FOR RESONANT FREQUENCY COMPUTATION OF RECTANGULAR, CIRCULAR, AND TRIANGULAR MICROSTRIP ANTENNAS. Progress In Electromagnetics Research 84, pages 253-277.
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Çiğdem Seçkin Gürel, Elif Aydın & Erdem Yazgan. (2007) Computation and optimization of resonant frequency and input impedance of a coax‐fed circular patch microstrip antenna. Microwave and Optical Technology Letters 49:9, pages 2263-2267.
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Kerim Guney & Nurcan Sarikaya. (2007) A Hybrid Method Based on Combining Artificial Neural Network and Fuzzy Inference System for Simultaneous Computation of Resonant Frequencies of Rectangular, Circular, and Triangular Microstrip Antennas. IEEE Transactions on Antennas and Propagation 55:3, pages 659-668.
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Tayfun Günel. (2004) Continuous hybrid approach to the modified resonant frequency calculation for circular microstrip antennas with and without air gaps. Microwave and Optical Technology Letters 40:5, pages 423-427.
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Kerim Guney & Nurcan Sarikaya. (2004) Computation of resonant frequency for equilateral triangular microstrip antennas using the adaptive neuro-fuzzy inference system. International Journal of RF and Microwave Computer-Aided Engineering 14:2, pages 134-143.
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Celal Yildiz, Sinan Gultekin, Kerim Guney & Seref Sagiroglu. (2002) Neural Models for the Resonant Frequency of Electrically Thin and Thick Circular Microstrip Antennas and the Characteristic Parameters of Asymmetric Coplanar Waveguides Backed with a Conductor. AEU - International Journal of Electronics and Communications 56:6, pages 396-406.
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Kerim Guney, Seref Sagiroglu & Mehmet Erler. (2002) Generalized neural method to determine resonant frequencies of various microstrip antennas. International Journal of RF and Microwave Computer-Aided Engineering 12:1, pages 131-139.
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�i?dem Se�kin G�rel & Erdem Yazgan. (2000) New determination of dynamic permittivity and resonant frequency of tunable circular disk microstrip structures. International Journal of RF and Microwave Computer-Aided Engineering 10:2, pages 120-126.
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Crossref
?aban �zer, Kerim G�ney & Ahmet Kaplan. (2000) Computation of the resonant frequency of electrically thin and thick rectangular microstrip antennas with the use of fuzzy inference systems. International Journal of RF and Microwave Computer-Aided Engineering 10:2, pages 108-119.
Crossref
Crossref
A. Akdagli & K. Güney. (2000) Effective patch radius expression obtained using a genetic algorithm for the resonant frequency of electrically thin and thick circular microstrip antennas. IEE Proceedings - Microwaves, Antennas and Propagation 147:2, pages 156.
Crossref
Crossref
D. T. Pham & D. KarabogaD. T. Pham & D. Karaboga. 2000. Intelligent Optimisation Techniques. Intelligent Optimisation Techniques
149
186
.
D. Karaboga, K. Güney, S. Sagiroglu & M. Erler. (1999) Neural computation of resonant frequency of electrically thin and thick rectangular microstrip antennas. IEE Proceedings - Microwaves, Antennas and Propagation 146:2, pages 155.
Crossref
Crossref