Cyclic transitions between higher order motifs underlie sustained asynchronous spiking in sparse recurrent networks.
Kyle BojanekYuqing ZhuJason N. MacLeanPublished in: PLoS Comput. Biol. (2020)
Keyphrases
- recurrent networks
- higher order
- feed forward
- state machines
- recurrent neural networks
- high order
- neural network
- back propagation
- biologically inspired
- artificial neural networks
- hebbian learning
- dna sequences
- sparse data
- natural images
- high dimensional
- spiking neural networks
- pairwise
- biologically plausible
- markov random field
- neuron model
- lambda calculus
- motif discovery
- bio inspired
- conditional random fields
- asynchronous communication
- online discussion
- compressive sensing
- low order
- knowledge building
- lower order
- artificial intelligence
- feed forward neural networks
- sparse representation
- multi modal
- graphical models
- single neuron
- data mining