Artificial cognitive systems: From VLSI networks of spiking neurons to neuromorphic cognition

Indiveri, G.; Chicca, Elisabetta; Douglas, R. J.

Artificial cognitive systems: From VLSI networks of spiking neurons to neuromorphic cognition

Indiveri G, Chicca E, Douglas RJ (2009)
Cognitive Computation 1(2): 119-127.

Zeitschriftenaufsatz | Veröffentlicht | Englisch

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_Artificial_cognitive_systems__From_VLSI_networks_of_spiking_neurons_to_neuromorphic_cognition.pdf

DOI

https://doi.org/10.1007/s12559-008-9003-6

URN

urn:nbn:de:0070-pub-24265711

Autor*in

Indiveri, G.; Chicca, Elisabetta^UniBi ; Douglas, R. J.

Einrichtung

Technische Fakultät > AG Neuromorphic Behaving Systems
Center of Excellence - Cognitive Interaction Technology CITEC

Abstract / Bemerkung

Neuromorphic engineering (NE) is an emerging research field that has been attempting to identify neural types of computational principles, by implementing biophysically realistic models of neural systems in Very Large Scale Integration (VLSI) technology. Remarkable progress has been made recently, and complex artificial neural sensory-motor systems can be built using this technology. Today, however, NE stands before a large conceptual challenge that must be met before there will be significant progress toward an age of genuinely intelligent neuromorphic machines. The challenge is to bridge the gap from reactive systems to ones that are cognitive in quality. In this paper, we describe recent advancements in NE, and present examples of neuromorphic circuits that can be used as tools to address this challenge. Specifically, we show how VLSI networks of spiking neurons with spike-based plasticity mechanisms and soft winner-take-all architectures represent important building blocks useful for implementing artificial neural systems able to exhibit basic cognitive abilities.

Stichworte

Neuromorphic engineering; Spike-based learning; Winner-take-all; Soft WTA; Cognition; VLSI

Erscheinungsjahr

2009

Zeitschriftentitel

Cognitive Computation

Band

Ausgabe

Seite(n)

119-127

ISSN

1866-9956

eISSN

1866-9964

Page URI

https://pub.uni-bielefeld.de/record/2426571

Zitieren

Indiveri G, Chicca E, Douglas RJ. Artificial cognitive systems: From VLSI networks of spiking neurons to neuromorphic cognition. Cognitive Computation. 2009;1(2):119-127.

Indiveri, G., Chicca, E., & Douglas, R. J. (2009). Artificial cognitive systems: From VLSI networks of spiking neurons to neuromorphic cognition. Cognitive Computation, 1(2), 119-127. https://doi.org/10.1007/s12559-008-9003-6

Indiveri, G., Chicca, Elisabetta, and Douglas, R. J. 2009. “Artificial cognitive systems: From VLSI networks of spiking neurons to neuromorphic cognition”. Cognitive Computation 1 (2): 119-127.

Indiveri, G., Chicca, E., and Douglas, R. J. (2009). Artificial cognitive systems: From VLSI networks of spiking neurons to neuromorphic cognition. Cognitive Computation 1, 119-127.

Indiveri, G., Chicca, E., & Douglas, R.J., 2009. Artificial cognitive systems: From VLSI networks of spiking neurons to neuromorphic cognition. Cognitive Computation, 1(2), p 119-127.

G. Indiveri, E. Chicca, and R.J. Douglas, “Artificial cognitive systems: From VLSI networks of spiking neurons to neuromorphic cognition”, Cognitive Computation, vol. 1, 2009, pp. 119-127.

Indiveri, G., Chicca, E., Douglas, R.J.: Artificial cognitive systems: From VLSI networks of spiking neurons to neuromorphic cognition. Cognitive Computation. 1, 119-127 (2009).

Indiveri, G., Chicca, Elisabetta, and Douglas, R. J. “Artificial cognitive systems: From VLSI networks of spiking neurons to neuromorphic cognition”. Cognitive Computation 1.2 (2009): 119-127.

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