Spikeling: A Low-cost Hardware Implementation of a Spiking Neuron for Neuroscience Teaching and Outreach

Overview

Journal PLoS Biol

Specialty Biology

Date 2018 Oct 27

PMID 30365493

Citations 5

Authors

Tom Baden

Ben James

Maxime J Y Zimmermann

Phillip Bartel

Dorieke Grijseels

Thomas Euler

Leon Lagnado

Miguel Maravall

Affiliations

Soon will be listed here.

Abstract

Understanding how neurons encode and compute information is fundamental to our study of the brain, but opportunities for hands-on experience with neurophysiological techniques on live neurons are scarce in science education. Here, we present Spikeling, an open source in silico implementation of a spiking neuron that costs £25 and mimics a wide range of neuronal behaviours for classroom education and public neuroscience outreach. Spikeling is based on an Arduino microcontroller running the computationally efficient Izhikevich model of a spiking neuron. The microcontroller is connected to input ports that simulate synaptic excitation or inhibition, to dials controlling current injection and noise levels, to a photodiode that makes Spikeling light sensitive, and to a light-emitting diode (LED) and speaker that allows spikes to be seen and heard. Output ports provide access to variables such as membrane potential for recording in experiments or digital signals that can be used to excite other connected Spikelings. These features allow for the intuitive exploration of the function of neurons and networks mimicking electrophysiological experiments. We also report our experience of using Spikeling as a teaching tool for undergraduate and graduate neuroscience education in Nigeria and the United Kingdom.

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