List of selected theses and dissertations supervised by Dr. Vijay Devabhaktuni.
MS Theses & Projects
Arash Kashi, Thesis Title: Rational Functions and Other Techniques for RF and Microwave Modeling.
Niladri Roy, Thesis Title: Computer Aided Design Approaches for Certain Classes of Low-Noise Amplifiers.
Li Zhu, Thesis Title: Design and Implementation of Microwave Bandpass Filters Based on CRLH-TL and Interdigital Ring Resonators.
Kaustubha Mendhurwar, Thesis Title: New MOSFET Modeling Algorithms and Their Use in CAD of Analog IC Building Blocks.
Navid Arbabi, Thesis Title: CAD Techniques for Design/Optimization of Spiral Inductors, Amplifiers, and Low-Pass Filters, In progress.
Mani Najmabadi, Thesis Title: Circuit and Signal Processing Techniques for Diagnosis of Esophageal Motility Disorders, In progress.
Farzin Manouchehri, Thesis Title: Modeling of Ghosting and Recovery in Multi-Layer a-Se Based Digital Medical X-ray Images, In progress.
Ahmad Zbeeb, Thesis Title: Digital PID-Based Techniques Applied to Maximum Power Point Tracking in Photovoltaic Systems, In progress.
Joshua Frankel, Thesis Title: A Pulsed Radar Level Measurement System, In progress.
PhD Dissertations
Rajasekhar Kakumani, Dissertation Title: New Algorithms for Genomic Signal Processing, In progress.
List of publications by Dr. Vijay Devabhaktuni.
Selection of published papers
L. Zhu, V.K. Devabhaktuni, C. Wang, and M. Yu, "Adjustable bandwidth filter
design based on interdigital capacitors," IEEE Microwave and Wireless Components
Letters, vol. 18, pp. 16-18, January 2008.
Y. Cao, J. Xu, V.K. Devabhaktuni, R. Ding, and Q.J. Zhang, "An adjoint
sensitivity technique for dynamic neural-network modeling and design of
high-speed interconnect," International Journal of RF and Microwave
Computer-Aided Engineering, vol. 16, pp. 385-399, July 2006.
X. Ding, V.K. Devabhaktuni, B. Chattaraj, M. Yagoub, M. Deo, J. Xu, and Q.J.
Zhang, "Neural network approaches to electromagnetic based modeling of passive
components and their applications to high-frequency and high-speed nonlinear
circuit optimization," IEEE Transactions on Microwave Theory and Techniques,
vol. 52, pp. 436-449, January 2004.
V.K. Devabhaktuni, M. Yagoub, B. Chattaraj, and Q.J. Zhang, "Advanced
microwave modeling framework exploiting automatic model generation, knowledge
neural networks, and space mapping," IEEE Transactions on Microwave Theory and
Techniques, vol. 51, pp. 1822-1833, July 2003.
Q.J. Zhang, K.C. Gupta, and V.K. Devabhaktuni, "Artificial neural networks
for RF and microwave design: From theory to practice," IEEE Transactions on
Microwave Theory and Techniques, vol. 51, pp. 1339-1350, April 2003.
V.K. Devabhaktuni, C. Xi, F. Wang, and Q.J. Zhang, “Robust training of
microwave neural models,” International Journal of RF and Microwave
Computer-Aided Engineering, vol. 12, pp. 109-124, June 2002.
V.K. Devabhaktuni, M. Yagoub, and Q.J. Zhang, “A robust algorithm for
automatic development of neural network models for microwave applications,” IEEE
Transactions on Microwave Theory and Techniques, vol. 49, pp. 2282-2291,
December 2001.
V.K. Devabhaktuni, M. Yagoub, Y. Fang, J. Xu, and Q.J. Zhang, “Neural
networks for microwave modeling: Model development issues and nonlinear modeling
techniques,” International Journal of RF and Microwave Computer-Aided
Engineering, vol. 11, pp. 4-21, January 2001.
F. Wang, V.K. Devabhaktuni, C. Xi, and Q.J. Zhang, “Neural network structures
and training algorithms for RF and microwave applications,” International
Journal of RF and Microwave Computer-Aided Engineering, vol. 9, pp. 216-240, May
1999.
F. Wang, V.K. Devabhaktuni, and Q.J. Zhang, “A hierarchical neural network
approach to the development of library of neural models for microwave design,”
IEEE Transactions on Microwave Theory and Techniques, vol. 46, pp. 2391-2403,
December 1998.
