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Faculty Profile

Bruce Land

Department: ECE

Title: Senior Lecturer

Personal Web Site:
http://www.nbb.cornell.edu/neurobio/land

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

Office Phone: (607) 254-4346

Biography:

Bruce Land is a Senior Lecturer in Electrical and Computer Engineering at Cornell. He teaches three courses in ECE and advises masters of engineering projects in ECE and Biomedical Engineering. In NBB provides research support in electronics design and computer techniques. When time allows, he does some neural modeling and spike train analysis. He has been in this position since 1998.

Land received a BS in physics from Harvey Mudd College in 1968 and a Ph.D. in neurobiology from Cornell University in 1976 . He was a Muscular Dystrophy Association postdoc in NBB at Cornell for three years, then a lecturer in NBB for seven years. During this time he worked with Miriam Salpeter on the coupling of activity at the vertebrate neuromuscular junction, both experimentally and by computer modeling. In 1987 he moved to the Cornell Theory Center as a computational research associate, then started supporting graphics and animation. He was visualization project leader at the CTC from 1989 to 1998. From 1992 to 1998 he taught an introductory computer graphics course in Computer Science at Cornell. From 1998 to 2007 he taught computer programming and electronics courses in NBB.

Research interests:

My research has focused on the application of electrical engineering to neurobiology and animal behavior. I am interested in low-cost, high-performance biological instrumentation, schemes for reducing the dimensionality of biological data, simulation of neural and behavioral systems, and application of signal processing techniques to biological signals. Topics of ongoing research include inexpensive neurobiological instrumentation for high schools and colleges, estimation of the 'complexity' of a signal to be compared to other biological measures, low-dimensional motion analysis of animal visual signals, mathematical simulation of neural processing in electroreception, and spike train analysis of electrophysiological data.

Selected Publications:

in press: Kyle D. Wesson, Robert M. Ochshorn, Bruce R. Land, Low-Cost, High-Fidelity, Adaptive Cancellation of Periodic 60 Hz Noise,  Journal of Neuroscience Methods (http://dx.doi.org/10.1016/j.jneumeth.2009.09.008).

2006: Elias DO, Land BR, Mason AC, and Hoy RR Measuring and Quantifying Dynamic Visual Signals in Jumping Spiders,  Journal of Comparative Physiology-A, Aug;192(8):785-97

2005: Weeg MS, Land BR, Bass AH Vocal Pathways Modulate Efferent Neurons to the Inner Ear and Lateral Line, Journal of Neuroscience, June 22, 2005, 25(25):5967–5974

2004: Land BR, Johnson BR, Wyttenbach RA, and Hoy RR Tools for Physiology Labs: Inexpensive Equipment for Physiological Stimulation The Journal of Undergraduate Neuroscience Education (JUNE), Fall 2004, 3(1): A30-A35 

2001: Wilson NR, Bodnar DA, Skovira JF, Land BR Processing of auditory midbrain interspike intervals by model neurons  J. Comp. Neuroscience Vol 10 (2), pp151-172