Living systems rarely operate in isolation. By interacting with other individual entities, mol- ecules, cells, animals, and humans are able to achieve behaviors, functionalities, structures, and other properties that are not achievable by the individuals alone. In this chapter we will illus- trate the key principles and properties that characterize natural collective cooperating systems and methods through which artificial collective systems displaying analogous properties can be synthesized. In doing that we will focus in particular on collective systems formed by colonies of cooperating individuals such as social insects and collective robotics systems.

Cooperation in collective systems

Nolfi S
2018

Abstract

Living systems rarely operate in isolation. By interacting with other individual entities, mol- ecules, cells, animals, and humans are able to achieve behaviors, functionalities, structures, and other properties that are not achievable by the individuals alone. In this chapter we will illus- trate the key principles and properties that characterize natural collective cooperating systems and methods through which artificial collective systems displaying analogous properties can be synthesized. In doing that we will focus in particular on collective systems formed by colonies of cooperating individuals such as social insects and collective robotics systems.
2018
Istituto di Scienze e Tecnologie della Cognizione - ISTC
Collective Behavior
Self-Organization
Evolutionary Robotics
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/20.500.14243/344926
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