设计自我意识适应系统:从自主计算到认知免疫网络

2013 IEEE 7th International Conference on Self-Adaptation and Self-Organizing Systems Workshops Pub Date : 2013-09-09 DOI:10.1109/SASOW.2013.17

Nicola Capodieci, E. Hart, Giacomo Cabri

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引用次数: 9

摘要

一个自治系统是由异构自治组件的集合组成的，其中大量的组件是动态添加和删除的。这样一个集成中的节点应该合作来实现系统或人类的目标，并且期望系统在很少或没有人类交互的情况下自适应。设计这样的系统带来了巨大的挑战。在本文中，我们建议系统工程师可以通过研究生物免疫系统，特别是通过采用科恩提出的认知免疫网络的免疫系统观点来获得重要的灵感。本文的目标是展示当前自主计算的文献如何通过考虑基于认知免疫网络的替代设计过程来积极丰富。在勾勒出认知免疫网络和自主计算参考模型之间的共性映射之后，我们通过描述一个简单的机器人群场景的实验，展示了如何利用工程自主系统来利用这些关于设计过程的考虑因素。

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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Designing Self-Aware Adaptive Systems: From Autonomic Computing to Cognitive Immune Networks

An autonomic system is composed of ensembles of heterogeneous autonomic components in which large sets of components are dynamically added and removed. Nodes within such an ensemble should cooperate to achieve system or human goals, and systems are expected to self-adapt with little or no human-interaction. Designing such systems poses significant challenges. In this paper we propose that the system engineer might gain significant inspiration by looking to the biological immune system, particularly by adopting a perspective on the immune system proposed by Cohen known as the Cognitive Immune Network. The goal of this paper is to show how the current literature in autonomic computing could be positively enriched by considering alternative design processes based on cognitive immune networks. After sketching out the mapping in commonalities between the Cognitive Immune Network and the autonomic computing reference model, we demonstrate how these considerations regarding the design process can be exploited with an engineered autonomic system by describing experiments with a simple robotic swarm scenario.

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2013 IEEE 7th International Conference on Self-Adaptation and Self-Organizing Systems Workshops

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