Ramin Pashaie, Ph.D.

Ramin Pashaie
, pashaie@uwm.edu(414) 229-2273
Eng & Math Sciences 1181
Assistant Professor
Electrical Engineering

Dr. Pashaie is currently seeking self-motivated students interested in working towards their Ph.D. in Electrical Engineering with interests in Bio applications and in particular neuroscience and brain studies. Specific areas of interest are electronics, electromagnetics, optics and photonics, signal processing etc. If you are interested please send an e-mail with your detailed CV to pashaie at uwm dot edu.

Education:

  • Ph.D., Electrical and Systems Engineering, University of Pennsylvania,
  • Postdoc: Bioengineering, Stanford University,

Research Focus:

  • Electronics.
  • Electromagnetics.
  • Optics and photonics and their applications in neuroscience.

Publications:

  • Ramin Pashaie, "Fourier Decomposition Analysis of Anisotropic Inhomogeneous Dielectric Waveguide Structures," IEEE Transaction on Microwave Theory and Techniques, Vol. 55, No. 8, pp. 1689-1696, Aug. 2007.
  • Ramin Pashaie, and Nabil H. Farhat, "Self-Organization in a Parametrically-Coupled Logistic Map Network: A New Model for Higher Level Information Processing in Cortex," IEEE Transaction on Neural Networks, Vol. 20, No. 4, pp. 597-608, April 2009.
  • Ramin Pashaie, and Nabil H. Farhat, "Dynamics of electron-trapping materials under blue light and near infrared exposure: an improved model," Journal of the Optical Society of America B, Vol. 24, No. 8, pp. 1927-1941, Aug. 2007.
  • Ramin Pashaie, and Nabil H. Farhat, "An Analytical Model for the Dynamics of the Electron Trapping Materials with Applications in Nonlinear Optical Signal Processing," Journal of the Optical Society of America B, Vol. 25, No. 1, pp. 15-21, Jan. 2008.
  • Ramin Pashaie, and Nabil H. Farhat, "Realization of Receptive Fields with Excitatory and inhibitory Responses in Equilibrium-State Luminescence of Electron Trapping Materials," Optics Letters, Vol. 32, No. 11, pp. 1501-1503, June 2007.
  • Ramin Pashaie, and Nabil H. Farhat, "Optical Realization of Bio-inspired Spiking Neurons in Electron Trapping Material Thin Films," Applied Optics, Vol. 46, No. 34, pp. 8411-8418, Dec. 2007.