Cognitive Supervisor for an Autonomous Swarm of Robots

V. Ivancevic, D. Reid
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引用次数: 2

Abstract

As a sequel to our recent work [1], in which a control framework was developed for large-scale joint swarms of unmanned ground (UGV) and aerial (UAV) vehicles, the present paper proposes cognitive and meta-cognitive supervisor models for this kind of distributed robotic system. The cognitive supervisor model is a formalization of the recently Nobel-awarded research in brain science on mammalian and human path integration and navigation, performed by the hippocampus. This is formalized here as an adaptive Hamiltonian path integral, and efficiently simulated for implementation on robotic vehicles as a pair of coupled nonlinear Schrodinger equations. The meta-cognitive supervisor model is a modal logic of actions and plans that hinges on a weak causality relation that specifies when atoms may change their values without specifying that they must change. This relatively simple logic is decidable yet sufficiently expressive to support the level of inference needed in our application. The atoms and action primitives of the logic framework also provide a straight-forward way of connecting the meta-cognitive supervisor with the cognitive supervisor, with other modules, and to the meta-cognitive supervisors of other robotic platforms in the swarm.
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自主机器人群的认知管理
作为我们最近的工作[1]的续集,在[1]中,我们为无人地面(UGV)和无人空中(UAV)车辆的大规模联合群开发了控制框架,本文提出了这种分布式机器人系统的认知和元认知监督模型。认知监督模型是最近获得诺贝尔奖的关于哺乳动物和人类路径整合和导航的脑科学研究的形式化,该研究由海马体完成。本文将其形式化为自适应哈密顿路径积分,并将其作为一对耦合的非线性薛定谔方程有效地模拟在机器人车辆上的实现。元认知监督模型是行动和计划的模态逻辑,它依赖于一个弱因果关系,它指定原子何时可以改变它们的值,而不指定它们必须改变。这个相对简单的逻辑是可确定的,但足够表达,可以支持我们应用程序中所需的推理级别。逻辑框架的原子和动作原语还提供了一种直接的方式,将元认知管理器与认知管理器、其他模块以及群中其他机器人平台的元认知管理器连接起来。
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