作为开放式进化动力学平台的蜂群系统

arXiv - QuanBio - Populations and Evolution Pub Date : 2024-09-02 DOI:arxiv-2409.01469

Hiroki Sayama

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引用次数: 0

摘要

人工蜂群系统在计算机科学、机器人学、工程学和其他技术领域得到了广泛的研究和应用，主要用作实现预定目标的稳健分布式系统的平台。然而，这种蜂群系统，尤其是异构蜂群系统，也可以作为一个理想的平台，用于创建*开放式进化动力*，这种动力不会向预定目标靠拢，而是不断探索各种可能性，并无限期地产生新的输出。在本文中，我们回顾了 "蜂群化学"（Swarm Chemistry）及其变体，并将其作为具体的示例案例来说明异质蜂群系统的有益特性，包括设计空间的无限性跃迁、多尺度结构/行为及其多样性，以及新兴模式的稳健自组织、自修复和生态互动，所有这些都是开放式进化过程的驱动力。此外，还讨论了在科学、工程和艺术/娱乐领域的应用以及进一步研究的方向。

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Swarm Systems as a Platform for Open-Ended Evolutionary Dynamics

Artificial swarm systems have been extensively studied and used in computer science, robotics, engineering and other technological fields, primarily as a platform for implementing robust distributed systems to achieve pre-defined objectives. However, such swarm systems, especially heterogeneous ones, can also be utilized as an ideal platform for creating *open-ended evolutionary dynamics* that do not converge toward pre-defined goals but keep exploring diverse possibilities and generating novel outputs indefinitely. In this article, we review Swarm Chemistry and its variants as concrete sample cases to illustrate beneficial characteristics of heterogeneous swarm systems, including the cardinality leap of design spaces, multiscale structures/behaviors and their diversity, and robust self-organization, self-repair and ecological interactions of emergent patterns, all of which serve as the driving forces for open-ended evolutionary processes. Applications to science, engineering, and art/entertainment as well as the directions of further research are also discussed.

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arXiv - QuanBio - Populations and Evolution

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