A tunable algorithm for collective decision-making

Complex biological systems are increasingly understood in terms of the algorithms that guide the behavior of system components and the information pathways that link them. Much attention has been given to robust algorithms, or those that allow a system to maintain its functions in the face of intern...

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Vydané v:Proceedings of the National Academy of Sciences - PNAS Ročník 103; číslo 43; s. 15906
Hlavní autori: Pratt, Stephen C, Sumpter, David J T
Médium: Journal Article
Jazyk:English
Vydavateľské údaje: United States 24.10.2006
Predmet:
Algorithms
Animal Migration
Animals
Ants - physiology
Decision Making
Social Behavior
ISSN:0027-8424
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Shrnutí:Complex biological systems are increasingly understood in terms of the algorithms that guide the behavior of system components and the information pathways that link them. Much attention has been given to robust algorithms, or those that allow a system to maintain its functions in the face of internal or external perturbations. At the same time, environmental variation imposes a complementary need for algorithm versatility, or the ability to alter system function adaptively as external circumstances change. An important goal of systems biology is thus the identification of biological algorithms that can meet multiple challenges rather than being narrowly specified to particular problems. Here we show that emigrating colonies of the ant Temnothorax curvispinosus tune the parameters of a single decision algorithm to respond adaptively to two distinct problems: rapid abandonment of their old nest in a crisis and deliberative selection of the best available new home when their old nest is still intact. The algorithm uses a stepwise commitment scheme and a quorum rule to integrate information gathered by numerous individual ants visiting several candidate homes. By varying the rates at which they search for and accept these candidates, the ants yield a colony-level response that adaptively emphasizes either speed or accuracy. We propose such general but tunable algorithms as a design feature of complex systems, each algorithm providing elegant solutions to a wide range of problems.
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ISSN:0027-8424
DOI:10.1073/pnas.0604801103