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Temporal spike pattern learning
BMC Neuroscience volume 9, Article number: P4 (2008)
Sensory systems pass information about an animal's environment to higher nervous system units through sequences of action potentials. When these action potentials have essentially equivalent waveforms, all information is contained in the interspike intervals (ISIs) of the spike sequence. The question then is, how do neural circuits recognize and read these ISI sequences? We address this issue of temporal sequence learning with a neuronal system utilizing spike timing dependent plasticity (STDP).
Motivated through recent work by  using spike timing dependent plasticity rules observed in inhibitory synapses, we present a very general architecture of neural circuitry that can perform the task of ISI recognition. The essential ingredients of this neural circuit, which we refer to as "interspike interval recognition unit" (IRU) are, (i) A spike selection unit, the function of which is to selectively distribute input spikes to downstream IRU circuitry, (ii) A time delay unit that can be tuned by STDP, (iii) A detection unit, which is the output of the IRU and a spike from which indicates successful ISI recognition by the IRU (Fig 1a). We present two distinct configurations for the time delay circuit within the IRU using excitatory and inhibitory synapses respectively to produce a delayed output spike at time t0 + t(R) in response to an input spike received at time t0 (Fig 1b, c). R is the tunable parameter of the time delay circuit that controls the timing of the delayed output spike. We discuss the forms of STDP rules for excitatory and inhibitory synapses respectively, which allows for modulation of R for the IRU to perform its task of ISI recognition. We then present two architectures for the IRU circuitry that can both learn the ISIs of a training sequence and then recognize the same ISI sequence when it is presented on the subsequent occasion.
Abarbanel HDI, Talathi SS: Neural circuitry for recognizing inter spike intervals. Phys Rev Lett. 2006, 96: 148104-10.1103/PhysRevLett.96.148104.
This work was funded through the grant from the office of Naval research (Grant Number N00014-02-1-1)
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Talathi, S.S., Abarbanel, H.D. & Ditto, W.L. Temporal spike pattern learning. BMC Neurosci 9, P4 (2008). https://0-doi-org.brum.beds.ac.uk/10.1186/1471-2202-9-S1-P4
- Neural Circuit
- Interspike Interval
- Inhibitory Synapse
- Spike Pattern
- Selection Unit