On Leaky-Integrate-and Fire as Spike-Train-Quantization Operator on Dirac-Superimposed Continuous-Time Signals

February 10, 2024 ยท Declared Dead ยท ๐Ÿ› arXiv.org

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Authors Bernhard A. Moser, Michael Lunglmayr arXiv ID 2402.07954 Category cs.NE: Neural & Evolutionary Cross-listed eess.SP Citations 2 Venue arXiv.org Last Checked 4 months ago
Abstract
Leaky-integrate-and-fire (LIF) is studied as a non-linear operator that maps an integrable signal $f$ to a sequence $ฮท_f$ of discrete events, the spikes. In the case without any Dirac pulses in the input, it makes no difference whether to set the neuron's potential to zero or to subtract the threshold $\vartheta$ immediately after a spike triggering event. However, in the case of superimpose Dirac pulses the situation is different which raises the question of a mathematical justification of each of the proposed reset variants. In the limit case of zero refractory time the standard reset scheme based on threshold subtraction results in a modulo-based reset scheme which allows to characterize LIF as a quantization operator based on a weighted Alexiewicz norm $\|.\|_{A, ฮฑ}$ with leaky parameter $ฮฑ$. We prove the quantization formula $\|ฮท_f - f\|_{A, ฮฑ} < \vartheta$ under the general condition of local integrability, almost everywhere boundedness and locally finitely many superimposed weighted Dirac pulses which provides a much larger signal space and more flexible sparse signal representation than manageable by classical signal processing.
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