Department of Electrical & Electronics Engineering
TR-06533 Bilkent, Ankara, Turkey
Phone: 90-312-266-4000 Ext. 1449
B.S. in Electrical & Electronics Eng., Middle
East Technical University, 1981.
M.S. in Electrical & Electronics Eng., Middle
East Technical University, 1983.
Ph.D. in Electrical &
University of Illinois
at Urbana-Champaign, 1990.
Worked in Electromagnetic Communications Lab., University
of Illinois at Urbana-Champaign, 1990-1992.
Faculaty Member in Electrical and Electronics Eng. at Bilkent
University since September 1992.
Engineering Projects (Still in Progress)
to see the list of projects...
Electromagnetic Theory and Computational Electromagnetics:
Study and application of numerical techniques, such as Method
of Moments (MoM), Finite-Difference Time-Domain method (FDTD) and Finite
Element Method (FEM); Electromagnetic modelling of electronic packaging;
Printed antennas; Microwave and millimeter wave integrated circuits.
Kinayman and M. I. Aksun, "Efficient evaluation of the MoM matrix
entries for planar geometries in multilayer media," IEEE Trans.
Microwave Theory Tech., Vol. MTT-48, pp. 309-312, Feb. 2000.
Alatan, M. I. Aksun, K. Leblebicioglu, and T. Birand, "Use of computationally
efficient MoM in the optimization of printed structures," IEEE Trans. Antennas
and Propagat., Vol. 47, pp.725-732, April 1999.
Kinayman, G. Dural, and M. I. Aksun, "A numerically efficient technique
for the analysis of slots in multilayer media," IEEE Trans. Microwave Theory
Tech., Vol. MTT-46, pp. 430-432, April 1998.
Kinayman and M. I. Aksun," Efficient and accurate EM simulation
technique for analysis and design of MMICs," Int. J. Microwave Millimeter-Wave
Computer-Aided Eng., vol. 7, pp. 344-358, Sept. 1997.
Kinayman and M. I. Aksun," Efficient use of closed-form Green's
functions for the analysis of planar geometries with vertical connections,"
IEEE Trans. Microwave Theory Tech., Vol. MTT-45, pp. 593-603, May 1997.
Gurel and M. I. Aksun," Electromagnetic scattering solution of conducting
strips in layered media using the fast multipole method," IEEE Microwave
Guided Wave Lett., Vol. 6, pp.277-279 , Aug. 1996.
I. Aksun," A robust approach for the derivation of closed-form Green's
functions," IEEE Trans. Microwave Theory Tech., Vol. MTT-44, pp. 651-658,
I. Aksun and G. Dural," Comparative study of absorbing boundary conditions
using Green's functions," IEEE Tran. Antennas Propagat., Vol. AP-44, pp.
152-156, Feb. 1996.
Last update: May 2001