Michael J. Carter

Michael J. Carter

Associate Professor

Current Activities

AAUP-UNH President, 2016-18



  • B.S. University of Michigan, 1975
  • M.S. Stanford University, 1976
  • Ph.D. University of Michigan, 1984


Michael Carter received the B.S.E. in Electrical Engineering (summa cum laude) from the University of Michigan in 1975, the M.S. in Electrical Engineering from Stanford University in 1976, and the Ph.D. in Computer, Information, and Control Engineering from the University of Michigan in 1984. He won a number of scholarships and awards in academia, including the Distinguished Undergraduate Achievement Award of the Electrical and Computer Engineering Department at the University of Michigan. From 1984 to 1987 he was a member of the technical staff at MIT Lincoln Laboratory where he was in the Satellite Communication Systems Engineering Group and the Optical Communication Technology Group. Since September 1987 he has been a member of the Department of Electrical and Computer Engineering at the University of New Hampshire. In 1989 he was awarded an Analog Devices Inc. Career Development Professorship and a General Electric Foundation Young Faculty Grant. He is a member of IEEE, Tau Beta Pi, Eta Kappa Nu, and Sigma Xi. He is a licensed Professional Engineer in the state of New Hampshire.

Teaching Interests

Professor Carter has long taught courses primarily in the communication systems and signal processing areas, but he also enjoys teaching both analog and digital circuit design, control systems, and especially likes helping students troubleshoot their design projects in the laboratory. He developed and teaches a popular course on design of renewable energy conversion systems that emphasizes photovoltaic and wind turbine generators.

Research Areas

Professor Carter's principal current research interests are in technical and public policy issues in renewable energy conversion systems and energy efficiency. He has previously worked in the areas of data compression theory, neural network fault tolerance, computational neuroscience, and physical layer synchronization systems for network data communications at rates up to 10 Gb/s.


(These papers are a representative sample from various research endeavors.)

  • B. Celikkol, K. Baldwin, R. Swift, M. Wosnik, C. White, M. Carter, D. Gress, J. DeCew, R. Despins, “The Center for Ocean Renewable Energy (CORE) at the University of New Hampshire: Infrastructure and Resources,”presented at Energy Ocean 2009, 16-18 June 2009, Rockland, ME
  • P. Venugopal, M.J. Carter, S.A. Valcourt, “Radio Frequency Interference and Capacity Reduction in DSL,” Proc. IASTED International Conference on Communications and Computer Networks, 2-4 November 2002, Cambridge, MA.
  • M.J. Langlois, M.J. Carter, S.A. Valcourt, and W.H. Lenharth, “ITU-T G.994.1 Protocol Analysis for ADSL Using MATLAB,” Proc. IASTED International Conference on Communications and Computer Networks, 2-4 November 2002, Cambridge, MA.
  • J. C. Canfield and M.J. Carter, "Epileptiform Bursting in a Disinhibited Recurrent Neural Network," Proc. 1998 Workshop on Neural Modeling of Brain and Cognitive Disorders, June 4-6, 1998, University of Maryland, College Park MD.
  • B.E. Segee and M.J. Carter: Comparative Fault Tolerance of Parallel Distributed Processing Networks. IEEE Transactions on Computers, Vol. 43, No. 11, November 1994, pp. 1123-1129.
  • M.J. Carter, "Excess Jitter Accumulation in Optical Heterodyne FSK Regenerator Chains due to Non-negligible Laser Linewidth," appears in Technical Digest, 1986 Optical Fiber Communication Conference, Atlanta GA, February 1986.
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