Competitive dynamics are thought to occur in many processes of learning involving synaptic plasticity. Here we show, in a game theory-inspired model of synaptic interactions, that the competition between synapses in their weak and strong states gives rise to a natural framework of learning, with the prediction of memory inherent in a timescale for forgetting a learned signal. Among our main results is the prediction that memory is optimized if the weak synapses are really weak, and the strong synapses are really strong. Our work admits of many extensions and possible experiments to test its validity, and in particular complements an existing model of reaching, which has strong experimental support
Thesis (Master's)--University of Washington, 2021A salient difference between artificial and biologi...
Distinct synapses influence one another when they undergo changes, with unclear consequences for neu...
Recent experimental observations of spike-timing-dependent synaptic plasticity (STDP) have revitaliz...
Competition between synapses arises in some forms of correlation-based plasticity. Here we propose a...
Cellular activity level at the time of learning is thought to be a critical factor to determine whic...
We first review traditional approaches to memory storage and formation, drawing on the literature of...
Changes in the efficadies of synapses are thought to be the neurobiological basis of learning and me...
12 pages, 8 figures. Phys. Rev. E (2014) to appearInternational audienceWe investigate a mean-field ...
Learning in a neuronal network is often thought of as a linear superposition of synaptic modificatio...
International audienceNew sensory stimuli can be learned with a single or a few presentations. Simil...
Competition is ubiquitous in perception. For example, items in the visual field compete for processi...
In this work we investigate from a computational perspective the efficiency of the Willshaw synaptic...
New experiences can be memorized by modifying the synaptic efficacies. Old memories are partially ov...
Learning by reinforcement is important in shaping animal behavior. But behavioral decision making is...
We studied the hypothesis that synaptic dynamics is controlled by three basic principles: (A) Synaps...
Thesis (Master's)--University of Washington, 2021A salient difference between artificial and biologi...
Distinct synapses influence one another when they undergo changes, with unclear consequences for neu...
Recent experimental observations of spike-timing-dependent synaptic plasticity (STDP) have revitaliz...
Competition between synapses arises in some forms of correlation-based plasticity. Here we propose a...
Cellular activity level at the time of learning is thought to be a critical factor to determine whic...
We first review traditional approaches to memory storage and formation, drawing on the literature of...
Changes in the efficadies of synapses are thought to be the neurobiological basis of learning and me...
12 pages, 8 figures. Phys. Rev. E (2014) to appearInternational audienceWe investigate a mean-field ...
Learning in a neuronal network is often thought of as a linear superposition of synaptic modificatio...
International audienceNew sensory stimuli can be learned with a single or a few presentations. Simil...
Competition is ubiquitous in perception. For example, items in the visual field compete for processi...
In this work we investigate from a computational perspective the efficiency of the Willshaw synaptic...
New experiences can be memorized by modifying the synaptic efficacies. Old memories are partially ov...
Learning by reinforcement is important in shaping animal behavior. But behavioral decision making is...
We studied the hypothesis that synaptic dynamics is controlled by three basic principles: (A) Synaps...
Thesis (Master's)--University of Washington, 2021A salient difference between artificial and biologi...
Distinct synapses influence one another when they undergo changes, with unclear consequences for neu...
Recent experimental observations of spike-timing-dependent synaptic plasticity (STDP) have revitaliz...