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F C Hoppensteadt

Showing results (1-10 of 17) with videos related to

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Journal of Mathematical Biology|January 1, 1991
The searchlight hypothesisF C Hoppensteadt
Theoretical Population Biology|February 1, 1976
A slow selection analysis of two locus, two allele traitsF C Hoppensteadt
IMA Journal of Mathematics Applied in Medicine and Biology|January 1, 1984
Synchronized oscillations in networks of neuron analogue circuitsF C Hoppensteadt
Proceedings of the National Academy of Sciences of the United States of America|May 1, 1989
Intermittent chaos, self-organization, and learning from synchronous synaptic activity in model neuron networksF C Hoppensteadt
Annals of the New York Academy of Sciences|January 1, 1987
Frequency modulation dynamics in neural networksF C Hoppensteadt
Journal of Mathematical Biology|March 23, 2001
Mathematical models and simulations of bacterial growth and chemotaxis in a diffusion gradient chamberC Chiu, F C Hoppensteadt
Journal of Mathematical Biology|January 1, 1987
A mathematical analysis of small mammal populationsF C Hoppensteadt, L Murphy
Journal of Mathematical Biology|January 1, 1982
Phase locking of biological clocksF C Hoppensteadt, J P Keener
Biological Cybernetics|August 1, 1996
Synaptic organizations and dynamical properties of weakly connected neural oscillators. I. Analysis of a canonical modelF C Hoppensteadt, E M Izhikevich
Bio Systems|January 14, 1999
Thalamo-cortical interactions modeled by weakly connected oscillators: could the brain use FM radio principles?F C Hoppensteadt, E M Izhikevich
Pageof 2

Showing results (1-10 of 17) with videos related to

Sort By:
Pageof 2
Journal of Mathematical Biology|January 1, 1991
The searchlight hypothesisF C Hoppensteadt
Theoretical Population Biology|February 1, 1976
A slow selection analysis of two locus, two allele traitsF C Hoppensteadt
IMA Journal of Mathematics Applied in Medicine and Biology|January 1, 1984
Synchronized oscillations in networks of neuron analogue circuitsF C Hoppensteadt
Proceedings of the National Academy of Sciences of the United States of America|May 1, 1989
Intermittent chaos, self-organization, and learning from synchronous synaptic activity in model neuron networksF C Hoppensteadt
Annals of the New York Academy of Sciences|January 1, 1987
Frequency modulation dynamics in neural networksF C Hoppensteadt
Journal of Mathematical Biology|March 23, 2001
Mathematical models and simulations of bacterial growth and chemotaxis in a diffusion gradient chamberC Chiu, F C Hoppensteadt
Journal of Mathematical Biology|January 1, 1987
A mathematical analysis of small mammal populationsF C Hoppensteadt, L Murphy
Journal of Mathematical Biology|January 1, 1982
Phase locking of biological clocksF C Hoppensteadt, J P Keener
Biological Cybernetics|August 1, 1996
Synaptic organizations and dynamical properties of weakly connected neural oscillators. I. Analysis of a canonical modelF C Hoppensteadt, E M Izhikevich
Bio Systems|January 14, 1999
Thalamo-cortical interactions modeled by weakly connected oscillators: could the brain use FM radio principles?F C Hoppensteadt, E M Izhikevich
Pageof 2