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Many biological systems are complex aggregates of multiple agents working together towards collective, higher-order goals, and evolution acts on variation in these emergent collective properties. There is no central control dictating the activities of members in the assembly. Instead, agents use local signals that determine their behavior and are received through an intricate interaction network resulting in collective phenotypes. Thus, the composition of a group and the way its members interact affects the success of the group as a whole, just as the composition of any sports team dictates its success in the league.
The Pinter-Wollman lab examines the emergence of collective outcomes from group composition by combining field and lab studies with computer simulations, theoretical work, image analysis, and social network analysis.
Many biological systems are complex aggregates of multiple agents working together towards collective, higher-order goals, and evolution acts on variation in these emergent collective properties. There is no central control dictating the activities of members in the assembly. Instead, agents use local signals that determine their behavior and are received through an intricate interaction network resulting in collective phenotypes. Thus, the composition of a group and the way its members interact affects the success of the group as a whole, just as the composition of any sports team dictates its success in the league.
The Pinter-Wollman lab examines the emergence of collective outcomes from group composition by combining field and lab studies with computer simulations, theoretical work, image analysis, and social network analysis.
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论文共 24 篇作者统计合作学者相似作者
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Animal Behaviour (2024)
Trends in ecology & evolutionno. 4 (2023): 337-345
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