Emergent Sensing of Complex Environments by Mobile Animal Groups

Andrew Berdahl; Colin J. Torney; Christos C. Ioannou; Jolyon J. Faria; Iain D. Couzin

doi:10.1126/science.1225883

Emergent Sensing of Complex Environments by Mobile Animal Groups

Andrew Berdahl^*, Colin J. Torney, Christos C. Ioannou, Jolyon J. Faria, Iain D. Couzin

^*Corresponding author for this work

Research output: Contribution to journal › Article (Academic Journal) › peer-review

341 Citations (Scopus)

Abstract

The capacity for groups to exhibit collective intelligence is an often-cited advantage of group living. Previous studies have shown that social organisms frequently benefit from pooling imperfect individual estimates. However, in principle, collective intelligence may also emerge from interactions between individuals, rather than from the enhancement of personal estimates. Here, we reveal that this emergent problem solving is the predominant mechanism by which a mobile animal group responds to complex environmental gradients. Robust collective sensing arises at the group level from individuals modulating their speed in response to local, scalar, measurements of light and through social interaction with others. This distributed sensing requires only rudimentary cognition and thus could be widespread across biological taxa, in addition to being appropriate and cost-effective for robotic agents.

Original language	English
Pages (from-to)	574-576
Number of pages	3
Journal	Science
Volume	339
Issue number	6119
DOIs	https://doi.org/10.1126/science.1225883
Publication status	Published - 1 Feb 2013

Keywords

COLLECTIVE INTELLIGENCE
MOVEMENTS
GROUP NAVIGATION
HATCHERY
BEHAVIOR
MODELS
SIZE
WRONGS
SALMON ONCORHYNCHUS-TSHAWYTSCHA
AVOIDANCE

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title = "Emergent Sensing of Complex Environments by Mobile Animal Groups",

abstract = "The capacity for groups to exhibit collective intelligence is an often-cited advantage of group living. Previous studies have shown that social organisms frequently benefit from pooling imperfect individual estimates. However, in principle, collective intelligence may also emerge from interactions between individuals, rather than from the enhancement of personal estimates. Here, we reveal that this emergent problem solving is the predominant mechanism by which a mobile animal group responds to complex environmental gradients. Robust collective sensing arises at the group level from individuals modulating their speed in response to local, scalar, measurements of light and through social interaction with others. This distributed sensing requires only rudimentary cognition and thus could be widespread across biological taxa, in addition to being appropriate and cost-effective for robotic agents.",

keywords = "COLLECTIVE INTELLIGENCE, MOVEMENTS, GROUP NAVIGATION, HATCHERY, BEHAVIOR, MODELS, SIZE, WRONGS, SALMON ONCORHYNCHUS-TSHAWYTSCHA, AVOIDANCE",

author = "Andrew Berdahl and Torney, {Colin J.} and Ioannou, {Christos C.} and Faria, {Jolyon J.} and Couzin, {Iain D.}",

year = "2013",

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doi = "10.1126/science.1225883",

language = "English",

volume = "339",

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journal = "Science",

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publisher = "American Association for the Advancement of Science",

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TY - JOUR

T1 - Emergent Sensing of Complex Environments by Mobile Animal Groups

AU - Berdahl, Andrew

AU - Torney, Colin J.

AU - Ioannou, Christos C.

AU - Faria, Jolyon J.

AU - Couzin, Iain D.

PY - 2013/2/1

Y1 - 2013/2/1

N2 - The capacity for groups to exhibit collective intelligence is an often-cited advantage of group living. Previous studies have shown that social organisms frequently benefit from pooling imperfect individual estimates. However, in principle, collective intelligence may also emerge from interactions between individuals, rather than from the enhancement of personal estimates. Here, we reveal that this emergent problem solving is the predominant mechanism by which a mobile animal group responds to complex environmental gradients. Robust collective sensing arises at the group level from individuals modulating their speed in response to local, scalar, measurements of light and through social interaction with others. This distributed sensing requires only rudimentary cognition and thus could be widespread across biological taxa, in addition to being appropriate and cost-effective for robotic agents.

AB - The capacity for groups to exhibit collective intelligence is an often-cited advantage of group living. Previous studies have shown that social organisms frequently benefit from pooling imperfect individual estimates. However, in principle, collective intelligence may also emerge from interactions between individuals, rather than from the enhancement of personal estimates. Here, we reveal that this emergent problem solving is the predominant mechanism by which a mobile animal group responds to complex environmental gradients. Robust collective sensing arises at the group level from individuals modulating their speed in response to local, scalar, measurements of light and through social interaction with others. This distributed sensing requires only rudimentary cognition and thus could be widespread across biological taxa, in addition to being appropriate and cost-effective for robotic agents.

KW - COLLECTIVE INTELLIGENCE

KW - MOVEMENTS

KW - GROUP NAVIGATION

KW - HATCHERY

KW - BEHAVIOR

KW - MODELS

KW - SIZE

KW - WRONGS

KW - SALMON ONCORHYNCHUS-TSHAWYTSCHA

KW - AVOIDANCE

U2 - 10.1126/science.1225883

DO - 10.1126/science.1225883

M3 - Article (Academic Journal)

C2 - 23372013

VL - 339

SP - 574

EP - 576

JO - Science

JF - Science

SN - 0036-8075

IS - 6119

ER -

Emergent Sensing of Complex Environments by Mobile Animal Groups

Abstract

Keywords

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