网络发现和覆盖的方向偏差和信息素

2012 IEEE Sixth International Conference on Self-Adaptive and Self-Organizing Systems Pub Date : 2012-09-10 DOI:10.1109/SASO.2012.32

Glenn A. Fink, K. Berenhaut, C. Oehmen

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引用次数: 6

摘要

自然多智能体系统通常依赖于“相关随机行走”(对当前航向有偏见的随机行走)在一个空间上分布它们的智能体(例如，觅食、搜索等)。我们的贡献包括创建一个新的运动和信息素模型，该模型将随机行走中的航向偏差概念应用于为网络安全监控而设计的多智能体、数字蚂蚁系统。我们研究了信息素和方向偏差对二维网络布局中目标发现速度和搜索区域覆盖的相对性能影响。我们发现标题偏差在减少搜索时间方面出乎意料地有帮助，并且在提高覆盖率方面比费洛蒙更有影响力。我们得出结论，虽然信息素对于快速发现非常重要，但航向偏差也可以极大地提高这两个性能指标。

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Directional Bias and Pheromone for Discovery and Coverage on Networks

Natural multi-agent systems often rely on "correlated random walks" (random walks that are biased toward a current heading) to distribute their agents over a space (e.g., for foraging, search, etc.) Our contribution involves creation of a new movement and pheromone model that applies the concept of heading bias in random walks to a multi-agent, digital-ants system designed for cyber-security monitoring. We examine the relative performance effects of both pheromone and heading bias on speed of discovery of a target and search-area coverage in a two-dimensional network layout. We found that heading bias was unexpectedly helpful in reducing search time and that it was more influential than pheromone for improving coverage. We conclude that while pheromone is very important for rapid discovery, heading bias can also greatly improve both performance metrics.

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2012 IEEE Sixth International Conference on Self-Adaptive and Self-Organizing Systems

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