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PUBLICATIONS2017M. C. Teich, "At the Interface of Photonics and Neuroscience,"
2009M. C. Teich, "Fractal Point Events in Physics, Biology, and Communication Networks," 2005S. B. Lowen and M. C. Teich, 1999S. B. Lowen and M. C. Teich, "Toward Fractal Coding in Auditory Prostheses," in 1997S. Thurner, S. B. Lowen, M. Feurstein, C. Heneghan, H. G. Feichtinger, and M. C. Teich, "Analysis, Synthesis, and Estimation of Fractal-Rate Stochastic Point Processes," 1996M. C. Teich, "Self-Similarity in Sensory Neural Signals," in C. Heneghan, C. C. Chow, J. J. Collins, T. T. Imhoff, S. B. Lowen, and M. C. Teich, "Information Measures Quantifying Aperiodic Stochastic Resonance," 1995W. J. McGill and M. C. Teich, "Alerting Signals and Detection in a Sensory Network," 1992W. J. McGill and M. C. Teich, "Alerting Signals and Auditory Detection in Branching Chains," 1991W. J. McGill and M. C. Teich, "Auditory Signal Detection and Amplification in a Neural Transmission Network," in W. J. McGill and M. C. Teich, "Simple Models of Sensory Transmission," 1989W. J. McGill and M. C. Teich, "A Unique Approach to Stimulus Detection Theory in Psychophysics Based Upon the Properties of Zero-Mean Gaussian Noise," W. J. McGill and M. C. Teich, "Auditory Signal Detection and Amplification in a Neural Transmission Network," 1984G. Lachs, R. Al-Shaikh, Q. Bi, R. A. Saia, and M. C. Teich, "A Neural-Counting Model Based on Physiological Characteristics of the Peripheral Auditory System. V. Application to Loudness Estimation and Intensity Discrimination," 1983G. Lachs, R. A. Saia, and M. C. Teich, "A Neural-Counting Model Based on Physiological Characteristics of the Peripheral Auditory System. IV. Application to Response of Individual Neural Fibers," M. C. Teich and G. Lachs, "A Neural-Counting Model Incorporating Refractoriness and Spread of Excitation: III. Application to Intensity Discrimination and Loudness Estimation for Variable-Bandwidth Noise Stimuli," 1982M. C. Teich, P. R. Prucnal, G. Vannucci, M. E. Breton, and W. J. McGill, "Multiplication Noise in the Human Visual System at Threshold: 3. The Role of Non-Poisson Quantum Fluctuations," P. R. Prucnal and M. C. Teich, "Multiplication Noise in the Human Visual System at Threshold: 2. Probit Estimation of Parameters," M. C. Teich, P. R. Prucnal, G. Vannucci, M. E. Breton, and W. J. McGill, "Multiplication Noise in the Human Visual System at Threshold: 1. Quantum Fluctuations and Minimum Detectable Energy," 1981M. C. Teich, "Role of the Doubly Stochastic Neyman Type-A and Thomas Counting Distributions in Photon Detection," G. Lachs and M. C. Teich, "A Neural-Counting Model Incorporating Refractoriness and Spread of Excitation: II. Application to Loudness Estimation," 1980P. R. Prucnal and M. C. Teich, "An Increment Threshold Law for Stimuli of Arbitrary Statistics," M. C. Teich, "State-Vector Formalism for Intrapersonal, Interpersonal, and Group Interactions," 1979M. C. Teich and G. Lachs, "A Neural-Counting Model Incorporating Refractoriness and Spread of Excitation: I. Application to Intensity Discrimination," 1977W. J. McGill, "Optical Communications and Psychophysics," in | ||

Last Updated: 14 February 2018 All Contents Copyright © Malvin Carl Teich 1996-2018 |