Submissions from 2006
Self-consistent modeling of escape and capture of carriers in quantum wells, Rahim Khoie and Stephen M. Ramey
A program to improve learning and retention of first year engineering students, Camilla M. Saviz, Abel Fernandez, Michael Golanbari, Rahim Khoie, and Kyle Watson
Submissions from 2005
A method for evaluating and selecting renewable and non-renewable energy technologies, Rahim Khoie
Synchronous distance delivery of an electrical and computer engineering program, Cherian P. Mathews
Submissions from 2003
The positive influence of cooperative work experience on the capstone design experience of engineering students, Cherian P. Mathews, Jason Mamaloukas, and Scott Parrott
Modeling of multiple-quantum-well solar cells including capture, escape, and recombination of photoexcited carriers in quantum wells, Stephen M. Ramey and Rahim Khoie
Submissions from 2002
Beamspace ESPRIT for multi-source arrival angle estimation employing tapered windows, Cherian P. Mathews and Michael D. Zoltowski
Submissions from 1999
Derivative DFT Beamspace ESPRIT: A high performance closed-form 2-D arrival angle estimation algorithm, Cherian P. Mathews
DSP implementation of an amplitude modulation transmission system: A capstone design approach, Cherian P. Mathews, Adrianne Candia, and Waleed Kader
FCA-ESPRIT: A closed-form 2-D angle estimation algorithm for filled circular arrays with arbitrary sampling lattices, Javier Ramos, Cherian P. Mathews, and Michael D. Zoltowski
Submissions from 1998
A study of transconductance degradation in HEMT using a self-consistent Boltzmann-Poisson-Schrödinger solver, Rahim Khoie
Formulation of a self-consistent model for quantum well pin solar cells: Dark behavior, Stephen M. Ramey and Rahim Khoie
Submissions from 1996
Improved closed-form DOA/frequency estimation via ESPRIT using DFT and derivative DFT beamforming, Cherian P. Mathews
Performance analysis of closed-form, ESPRIT based 2-D angle estimator for rectangular arrays, Cherian P. Mathews, Martin Haardt, and Michael D. Zoltowski
Closed-form 2-D angle estimation with rectangular arrays in element space or beamspace via unitary ESPRIT, Michael D. Zoltowski, Martin Haardt, and Cherian P. Mathews
Submissions from 1995
2D unitary ESPRIT for efficient 2D parameter estimation, Martin Haardt, Michael D. Zoltowski, Cherian P. Mathews, and Josef A. Nossek
Computer simulation of quantum transport in high electron mobility transistor part II: the full quantum transport, Rahim Khoie
Implementation and performance analysis of 2D DFT beamspace ESPRIT, Cherian P. Mathews, Martin Haardt, and Michael D. Zoltowski
Submissions from 1994
Eigenstructure Techniques for 2-D Angle Estimation with Uniform Circular Arrays, Cherian P. Mathews and Michael D. Zoltowski
Performance Analysis of the UCA-ESPRIT Algorithm for Circular Ring Arrays, Cherian P. Mathews and Michael D. Zoltowski
Closed-form 2D angle estimation with rectangular arrays via DFT beamspace ESPRIT+, Michael D. Zoltowski, Martin Haardt, and Cherian P. Mathews
Real-Time Frequency and 2-D Angle Estimation with Sub-Nyquist Spatio-Temporal Sampling, Michael D. Zoltowski and Cherian P. Mathews
Submissions from 1993
Closed-form 2D angle estimation with uniform circular arrays via phase mode excitation and ESPRIT, Michael D. Zoltowski and Cherian P. Mathews
Real-time frequency and 2-D angle estimation with sub-Nyquist spatio-temporal samplingt, Michael D. Zoltowski and Cherian P. Mathews
Beamspace Root-MUSIC for Minimum Redundancy Linear Arrays, Michael D. Zoltowski, Seth D. Silverstein, and Cherian P. Mathews
Submissions from 1992
Direction finding with circular arrays via phase mode excitation and root-music, Cherian P. Mathews and Michael D. Zoltowski
Performance analysis of eigenstructure based DOA estimators employing conjugate symmetric beamformers, Michael D. Zoltowski, G. M. Kautz, and Cherian P. Mathews
Direction finding with uniform circular arrays via phase mode excitation and beamspace root-music, Michael D. Zoltowski and Cherian P. Mathews
Submissions from 1991
A Two-Dimensional Self-Consistent Numerical Model for High Electron Mobility Transistor, Sze Him Ng, Rahim Khoie, and R. Venkat
