进化和自组装机器人有机体的发展

P. Levi
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引用次数: 0

摘要

共生机器人是集体机器人中的一门学科,它涉及人工多细胞机器人有机体,这些机器人有机体通过自组装的聚集来定义其形态结构,并且之后也能够分解。这一贡献涉及对进化和认知原则的描述,这些原则支配着这种共生循环,以建立不同形式的人工生物体并与它们一起运作。进化的方法从人工基因组开始,将通过插入不同类型的调节周期继续下去,最终形成胚胎形成的身体。因此,基于遗传的学习和基于适应度的学习是有区别的。此外,多细胞生物与群体成员的结构化合作群体之间存在显著差异。认知方法侧重于认知地图,认知传感器数据融合,并最终定义在给定环境中控制生物体形成和身体生存过程的信息。这种更具工程导向的方法用于构建所有hw组件和各种嵌入式“操作系统”,以控制和操作共生机器人有机体。
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Development of evolutionary and self-assembling robot-organisms
Symbiotic robotics is a discipline within collective robotics that is concerned with artificial multi-cellular robot-organisms that define their morphological structure by aggregation through self-assembling and they are also able to disaggregate afterwards. This contribution is concerned to the description of evolutionary and cognitive principles that governs such a symbiotic cycle to build artificial organisms of different forms and operate with them. The evolutionary approach starts with a artificial genome, will be continued by the insertion of different types of regulative cycles, and ends up in an embryogenetic formed body. Hereby there is differentiation between the genetic based learning and the fitness based learning. Further there are dominant differences between multi-cellular organism and structured cooperative aggregations of swarm members. The cognitive approach is focused on cognitive maps, on cognitive sensor data fusion and finally to the definition of information that governs the the process of organism formation and body survival in a given environment. This more engineering oriented approach is used to build all HW-components and all kinds of embedded “operating systems” to control and to operate symbiotic robot organisms.
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