Estimating global stress environment by observing local behavior in distributed multiagent systems

IEEE International Conference on Automation Science and Engineering, 2005. Pub Date : 2005-09-12 DOI:10.1109/COASE.2005.1506771

Seokcheon Lee, S. Kumara

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引用次数: 2

Abstract

A multiagent system can be considered survivable if it adapts itself to varying stresses without considerable performance degradation. Such an adaptivity comprises of identifying the behavior of the agents in a society, relating them to stress situations, and then invoking control rules. This problem is a hard one, especially in distributed multiagent systems wherein the agent behaviors tend to be nonlinear and dynamic. In this paper, we study a supply chain planning system implemented in COUGAAR (cognitive agent architecture) and develop a methodology for identifying the behavior of agents through their behavioral parameters, and relating those parameters to stress situations. One important aspect of our approach is that we identify the stress situations of agents in the society by observing local behavior of one representative agent. This approach is motivated by the fact that a local time series can have the information of the dynamics of the entire system in deterministic dynamical systems. We validate our approach empirically through identifying the stress situations using k-nearest neighbor algorithm based on the behavioral parameters.

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通过观察分布式多智能体系统的局部行为来估计全局应力环境

如果一个多智能体系统能够适应各种不同的压力，而不会造成相当大的性能下降，那么它就可以被认为是可生存的。这种适应性包括识别社会中代理人的行为，将其与压力情况联系起来，然后调用控制规则。这是一个比较困难的问题，特别是在分布式多智能体系统中，智能体的行为往往是非线性的和动态的。在本文中，我们研究了在COUGAAR(认知代理架构)中实现的供应链规划系统，并开发了一种通过代理的行为参数来识别其行为的方法，并将这些参数与压力情况联系起来。我们方法的一个重要方面是，我们通过观察一个有代表性的主体的局部行为来识别社会中主体的压力情况。这种方法的动机是，在确定性动力系统中，局部时间序列可以包含整个系统的动态信息。我们通过使用基于行为参数的k近邻算法识别压力情况来验证我们的方法。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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IEEE International Conference on Automation Science and Engineering, 2005.

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