Some articles
- Spike-timing-dependent plasticity for neurons
with recurrent connections, A N Burkitt, M Gilson, and J L van Hemmen.
- Emergence of network structure due to spike-timing-dependent
plasticity in recurrent neuronal networks. I. Input
selectivity–strengthening correlated input pathways, M Gilson, A N Burkitt, D B Grayden, D A Thomas, and J L van Hemmen.
- Emergence of network structure due to spike-timing-dependent
plasticity in recurrent neuronal networks. II. Input
selectivity—symmetry breaking, M Gilson, A N Burkitt, D B Grayden, D A Thomas, and J L van Hemmen.
- Emergence of network structure due to spike-timing-dependent
plasticity in recurrent neuronal networks III: Partially connected
neurons driven by spontaneous activity. M Gilson, A N Burkitt, D B Grayden, D A Thomas, and J L van Hemmen.
- Emergence of network structure due to spike-timing-dependent
plasticity in recurrent neuronal networks IV. M Gilson, A N Burkitt, D B Grayden, D A Thomas, and J L van Hemmen.
- Emergence of network structure due to spike-timing-dependent
plasticity in recurrent neuronal networks V: self-organization
schemes and weight dependence M Gilson, A N Burkitt, D B Grayden, D A Thomas, and J L van Hemmen.
- The learning dynamics of spike-timing-dependent plasticity in
recurrently connected networks, M Gilson, A N Burkitt, and J L van Hemmen.
- STDP in recurrent neuronal networks, M Gilson, A N Burkitt, and J L van Hemmen.
- Adaptive-network models of swarm dynamics, C Huepe, G Zschaler, A-L Do, and T Gross.
- Multistability in the Kuramoto model with synaptic plasticity, Y L Maistrenko, B Lysyansky, C Hauptmann, O Burylko, and P A Tass.
- Formation of feedforward networks and frequency
synchrony by spike-timing-dependent plasticity, N Masuda, H Kori.
email: mikefield@gmail.com
Professor Mike Field
Department of Mechanical Engineering
University of California
Santa Barbara, CA 93106
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