Exploring aspects of cell intelligence with artificial reaction networks

C E Gerrard; J McCall; G M Coghill; C Macleod

doi:10.1007/s00500-013-1174-8

Exploring aspects of cell intelligence with artificial reaction networks

C E Gerrard, J McCall, G M Coghill, C Macleod

Research output: Contribution to journal › Article › peer-review

7 Citations (Scopus)

Abstract

The Artificial Reaction Network (ARN) is a Cell Signalling Network inspired connectionist representation belonging to the branch of A-Life known as Artificial Chemistry. Its purpose is to represent chemical circuitry and to explore computational properties responsible for generating emergent high-level behaviour associated with cells. In this paper, the computational mechanisms involved in pattern recognition and spatio-temporal pattern generation are examined in robotic control tasks. The results show that the ARN has application in limbed robotic control and computational functionality in common with Artificial Neural Networks. Like spiking neural models, the ARN can combine pattern recognition and complex temporal control functionality in a single network, however it offers increased flexibility. Furthermore, the results illustrate parallels between emergent neural and cell intelligence.

Original language	English
Pages (from-to)	1899-1912
Number of pages	14
Journal	Soft Computing
Volume	18
Issue number	10
Early online date	20 Nov 2013
DOIs	https://doi.org/10.1007/s00500-013-1174-8
Publication status	Published - Oct 2014

Keywords

artificial biochemical network (abn)
artificial chemistry
artificial neural network (ann)
biochemical reaction networks
biology
gaits
locomotion
logic gates
nets
neural-network
systems

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Christopher MacLeod
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- UHI North West and Hebrides - Lecturer
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title = "Exploring aspects of cell intelligence with artificial reaction networks",

abstract = "The Artificial Reaction Network (ARN) is a Cell Signalling Network inspired connectionist representation belonging to the branch of A-Life known as Artificial Chemistry. Its purpose is to represent chemical circuitry and to explore computational properties responsible for generating emergent high-level behaviour associated with cells. In this paper, the computational mechanisms involved in pattern recognition and spatio-temporal pattern generation are examined in robotic control tasks. The results show that the ARN has application in limbed robotic control and computational functionality in common with Artificial Neural Networks. Like spiking neural models, the ARN can combine pattern recognition and complex temporal control functionality in a single network, however it offers increased flexibility. Furthermore, the results illustrate parallels between emergent neural and cell intelligence.",

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author = "Gerrard, {C E} and J McCall and Coghill, {G M} and C Macleod",

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AU - McCall, J

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AU - Macleod, C

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AB - The Artificial Reaction Network (ARN) is a Cell Signalling Network inspired connectionist representation belonging to the branch of A-Life known as Artificial Chemistry. Its purpose is to represent chemical circuitry and to explore computational properties responsible for generating emergent high-level behaviour associated with cells. In this paper, the computational mechanisms involved in pattern recognition and spatio-temporal pattern generation are examined in robotic control tasks. The results show that the ARN has application in limbed robotic control and computational functionality in common with Artificial Neural Networks. Like spiking neural models, the ARN can combine pattern recognition and complex temporal control functionality in a single network, however it offers increased flexibility. Furthermore, the results illustrate parallels between emergent neural and cell intelligence.

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KW - artificial chemistry

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KW - gaits

KW - locomotion

KW - logic gates

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KW - systems

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Exploring aspects of cell intelligence with artificial reaction networks

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