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Publication List

Journal Papers submitted for publication

[1] E. Gad and M. Nakhla, “Efficient Model Reduction of Linear Periodically Time Varying Systems via Compressed Transient System Function,”, submitted for IEEE Transactions on Circuits and Systems, Fundamental Theory and Applications.

[2] E. Gad and M. Nakhla, “Efficient Analysis of Non-uniform Transmission Lines via Weighted Integrated Congruent Transform,” submitted for IEEE Transactions on Components, Packaging and Manufacturing.

Refereed Journal papers

[3] E. Gad, R. Khazaka, M. Nakhla and R. Griffith, "A Circuit Reduction Technique for Finding the Steady State Solution of Nonlinear Circuits," IEEE Transactions on Micorwave Theory and Techniques, vol. 38, pp. 2389-2396, Dec. 2000. (Best paper award)

[4] A. Dounavis, E. Gad, R. Achar and M. Nakhla, "Passive Model Reduction of Multiport Distributed Interconnects," IEEE Transactions on Microwave Theory and Techniques, vol. 48, pp. 2325-2334, Dec. 2000.

[5] E. Gad, A. Atiya, S. Shaheen, and A. El-Dessouky, “A new algorithm for learning in piecewise-linear neural networks", Neural Networks, Vol. 13, No. 4-5, pp. 485-505, May/June 2000.

Refereed Conference and Workshop publications

[6] E. Gad and M. Nakhla, “Efficient Model Reduction of Linear Time-Varying Systems via Compressed Transient System Function,” DATE’02, Paris, March 2002.

[7] A. Dounavis, P. K. Gunupudi, E. Gad, R. Khazaka, R. Griffith, R. Achar and M. Nakhla, "Addressing Transient Analysis of Multiport Distributed Interconnects," IEEE 9th Topical meeting on Electrical Performance of Electronic Packaging, Phoenix, AZ, pp 243-246, Oct. 2000.

[8] E. Gad, A. Dounavis, M. Nakhla and R. Achar, "Passive Model Order Reduction of Multiport Distributed Interconnects," Proceeding DAC, Los Angeles, CA, vol. 37, pp 526-531, June 2000.

[9] A. Dounavis, E. Gad, R. Achar and M. Nakhla, "Passive Model-Reduction of Distributed Networks with Frequency-Dependent Parameters," IEEE MTT-S International Microwave Symposium Digest, Boston, Massachusetts, vol. 3, pp 1789-1792, June 2000.

[10] E. Gad, R. Khazaka, M. Nakhla and R. Griffith, "Circuit reduction technique for finding the steady state solution of nonlinear circuits," IEEE MTT-S International Microwave Symposium, vol. 1, pp. 83-86, June 2000.

[11] E. Gad and M. Nakhla, "Model Reduction for DC Solution of Large Nonlinear Circuits," IEEE International Conference on Computer Aided Design, ICCAD99, San José, CA, pp. 376-379, Nov. 1999.

[12] A. Atiya, E. Gad, S. Shaheen, and A. El-Dessouky, "On training piecewise linear networks", Proc. IEEE Workshop on Neural Networks for Signal Processing NNSP-99, Madison, Wisconsin, August 1999.

[13] E. Gad, A. Atiya, S. Shaheen, and A. El-Dessouky, "An efficient training algorithm for piecewise linear networks", Proc. Intelligent Data Engineering and Learning Conf. (IDEAL'98), pp. 73-79, Hong Kong, October 1998.

Invited Papers

[14] E. Gad and M. Nakhla “Efficient Simulation of Nonuniform Transmission Lines Using Integrated Congruent Transform”, to appear in the 15th International Symposium on Electromagnetic compatibility, Zurich, February 2003.

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