Cornell University ECE

ECE People

• [log in]
• Home
• Executive Staff
• Faculty Directory
• National Academy of Engineering (NAE) Members
• Faculty Awards & Honors
• Staff Directory
• Students

Faculty Profile

Peter C. Doerschuk

Department: BME , ECE

Title: Professor

Send Email

[cu directory]

Degrees earned:
 BSEE MIT 1977
 MSEE MIT 1979
 PhD MIT 1985
 MD Harvard Medical School 1987

Address:
Office:
 305 Phillips Hall
 Ithaca, NY, 14853

Office Phone: 607-255-2152

Biography:

Before joining Cornell University in July 2006, Peter Doerschuk was on the faculty of Purdue University in Electrical and Computer Engineering and Biomedical Engineering. He received BS, MS, and Ph.D. degrees in Electrical Engineering from MIT and an M.D. degree from Harvard Medical School. After post-graduate training at Brigham and Womens' Hospital he held a post-doctoral appointment at the Laboratory for Information and Decision Systems (MIT) before joining Purdue.

On January 1, Peter Doerschuk began a five-year term as Associate Editor for the IEEE Transactions on Image processing which is a leading journal in the area of signal-processing aspects of image processing, imaging systems, and image scanning, display, and printing. The focus of his editorial activities is medical and biological imaging manuscripts.

Research interests:

Peter Doerschuk's research concerns biological and medical systems from the view point of computational nonlinear stochastic systems. In particular, he has contributed to computational inverse problems for biophysics, statistical image processing, and biomedical and speech signal processing. In each of these areas, important goals of his work have been to incorporate accurate physical models while at the same time developing computationally practical algorithms implemented in high-performance software systems.

A wide range of spatial and temporal scales is represented in his research. At the smallest spatial scale, in collaboration with Professor J. E. Johnson (The Scripps Research Institute), he has developed algorithms and parallel software for problems associated with determining the 3-D shape of viruses from electron microscopy images and x-ray scattering data. Parallel software has played a critical role in solving these problems. At the largest spatial scale, in collaboration with Professor S. J. O'Connor (Indiana University School of Medicine), he has developed nonlinear differential equation models of the pharmacokinetics of ethanol. He has used these models to develop signal processing and pattern recognition algorithms and software for processing the outputs of a long-term implanted ethanol sensor system and to determine parameters describing the ethanol-related physiology of an individual from breath ethanol measurements.