Lehrstuhl für Hochfrequenztechnik

Profil von Dr.-Ing. Payman Rezaee

Payman Rezaee received the B.Sc. and M.Sc. degrees in electrical engineering from Iran University of Science and Technology, Tehran, Iran, in 2002 and 2005, respectively, and the Dr.-Ing. degree (summa cum laude) from Technical Faculty of CAU of Kiel, Germany in 2014. From 2005 to 2009 he was a teaching assistant at the electrical engineering department of Iran University of Science and Technology. Since 2010 he has been engaged in the research on microwave circuits specially filters for providing a fast design tool.

 

Research areas

  • Microwave resonators and filters
  • Soft computing techniques
  • Metamaterials

 

Teaching Experinces

  • Filter Theory and Synthesis
  • Communication Circuits
  • Communication Principals
  • Mathematical Engineering
  • Communication (I)
  • Electromagnetics
  • Microwave Lab.
  • Bachelor-Praktikum Hochfrequenztechnik

 

Publications

 

[1]  P. Rezaee and M. Tayarani, “A fuzzy model for input impedance of a rectangular microstrip patch antenna”, Proceeding of the First International Conference on Modeling, Simulation and Applied Optimization, American University of Sharjah, Feb. 2005, Sharjah, Emirates.

[2]  P. Rezaee and M. Tayarani, “Design and fabrication of an active antenna by means of injection locking technique”, 13th Iranian Conference of Electrical Engineering (ICEE 2005), May 2005, Zanjan, Iran.

[3]  P. Rezaee, M. Tayarani, and N. Mozayani, “A qualitative model for input impedance and coupling of microstrip patch antennas by means of fuzzy inference method,” in Proc. 2007 Europ. Conf. on Wireless Technology (ECWT), Munich, Germany, Oct. 8-10, pp. 44-47.

[4]  P. Rezaee, N. Nasr Esfahani, M. Tayarani, and N. Mozayani, “A novel, fast and accurate approach for coupling factor computation between square open loop resonators using fuzzy inference method,” in Proc. 6th International Conference on Microwave and Millimeter Wave Technology (ICMMT), Nanjing, China, April 21-24, 2008, pp. 1282-1285.

[5] P. Rezaee, N. Nasr Esfahani, and M. Tayarani, “External Q computation by fuzzy inference method; application to microstrip filter design,” in Proc. 6th International Conference on Microwave and Millimeter Wave Technology (ICMMT), Nanjing, China, April 21-24, 2008, pp. 971-974.

[6]  P. Rezaee, N. Nasr Esfahani, M. Tayarani, and N. Mozayani, “A novel approach for designing microstrip square open loop resonator filters using fuzzy inference method,” in Proc. 6th International Symposium on Electromagnetic Compatibility (EMCEurope), Hamburg, Germany, Sep. 8-12, 2008, pp. 747-752.

[7] P. Rezaee, N. Nasr Esfahani, R. Knoechel, and M. Tayarani, “Active learning method for microstrip filter design,” in Proc. 40th European Microwave Conference, Paris, France, Sep. 26-Oct. 1, 2010, pp. 369-372.

[8] P. Rezaee, M. Tayarani, and R. Knoechel, “Active learning method for the determination of coupling factor and external Q in microstrip filter design”, Progress In Electromagnetics Research, vol. 120, pp. 459-479, 2011.

[9] P. Rezaee, N. Nasr Esfahani, R. Knoechel, and M. Tayarani,“Active learning method for external Q computation,” in Proc. 6th German Microwave Conference, Darmstadt, Germany, March 14-16, 2011, pp. 1-4.

[10] P. Rezaee, N. Nasr Esfahani, R. Knoechel, and M. Tayarani, “Using active learning method for designing miniaturized microstrip metamaterial bandpass filters,” in Proc. 25th International Symposium on Microwave and Optical Technology, Prague, Czech Republic, June 20-23, 2011, pp. 257-260.

[11] N. Nasr Esfahani, P. Rezaee, and M. Tayarani, “Application of metamaterials in microwave humidity sensors”, in Proc. 25th International Symposium on Microwave and Optical Technology, Prague, Czech Republic, June 20-23, 2011, pp. 143-146.

[12] P. Rezaee, M. Tayarani, and R. Knoechel, “Miniaturized microstrip filter design using active learning method,” Radioengineering Journal, vol. 20, no. 4, pp. 857-865, Dec. 2011.

[13] P. Rezaee, N. Nasr Esfahani, R. Knoechel, and M. Tayarani, “Active learning method for designing miniaturized waveguide filters loaded by broadside-coupled split ring resonators,” in Proc. 13th International Conference on Electromagnetics in Advanced Applications, Torino, Italy, Sep. 12-16, 2011, pp. 1074-1077.

[14]           N. Nasr Esfahani, P. Rezaee, K. Schünemann, R. Knöchel, and M. Tayarani, “Miniaturized coaxial cylindrical cavity filters based on sub-wavelength metamaterial loaded resonator”, in Proc. 13th International Conference on Electromagnetics in Advanced Applications, Torino, Italy, Sep. 12-16, 2011, pp. 1086-1089.

[15]           P. Rezaee, R. Knoechel, and M. Tayarani, “Simple, fast, and accurate parametric modeling of the coupling and external quality factor for microstrip filter design using active learning method,” AEÜ- International Journal of Electronics and Communications, vol. 66, no 8, pp.668-676, Aug. 2012.

[16]           N. Nasr Esfahani, P. Rezaee, K. Schünemann, and Reinhard Knöchel, “Miniaturized coaxial cavity resonator based on anisotropic negative permeability metamaterial loading”, Microwave and Optical Technology Letters, vol. 54, no. 3, pp. 595-599, March 2012.