On emergent complex behaviour, self-organised criticality and phase transitions in multi-agent systems: autonomy oriented computing (AOC) perspectives

Jiming Liu; Bingcheng Hu

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On emergent complex behaviour, self-organised criticality and phase transitions in multi-agent systems: autonomy oriented computing (AOC) perspectives

机译：关于多主体系统中突发的复杂行为，自组织的临界度和相变：面向自治的计算（AOC）观点

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In a Multi-Agent System (MAS), there usually exist system-level goals that agents are collectively trying to attain. Generally speaking, the local behaviours and performances of individual agents directly determine which global characteristics of an MAS, for example, the global performance and/or patterns, will emerge and how the system-level goals will be attained. In most cases, such a local-global relationship is neither obvious nor straightforward. In this paper, we will address several issues on modelling emergent complex behaviours in MAS. In particular, we will focus on the local-global relationship in a Self-Organising MAS (SOMAS), and discuss the phenomena of Self-Organised Criticality (SOC) and phase transition in SOMAS.

机译：在多代理系统（MAS）中，通常存在代理集体试图达到的系统级目标。一般而言，单个代理的本地行为和性能直接确定将出现MAS的哪些全局特性，例如全局性能和/或模式，以及如何实现系统级目标。在大多数情况下，这种局部-全局关系既不明显也不简单。在本文中，我们将解决有关在MAS中为紧急情况复杂行为建模的几个问题。特别是，我们将关注自组织MAS（SOMAS）中的局部-全局关系，并讨论SOMAS中自组织临界（SOC）和相变的现象。

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来源
《International Journal of Modelling, Identification and Control》 |2008年第1期|p.3-16|共14页
作者
Jiming Liu; Bingcheng Hu;
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作者单位

Department of Computer Science, Hong Kong Baptist University, Kowloon Tong, Hong Kong SAR;

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原文格式 PDF
正文语种 eng
中图分类自动化技术、计算机技术;
关键词
autonomy-oriented computing; self-organisation; multi-agent systems; emergent complex behaviour; self-organised criticality; phase transition; RoboNBA;

机译：自主计算;自组织;多智能体系统;突发复杂行为;自组织临界度;相变;RoboNBA;

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On emergent complex behaviour, self-organised criticality and phase transitions in multi-agent systems: autonomy oriented computing (AOC) perspectives

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