自主移动机器人的紧急任务学习

Proceedings of IEEE/RSJ International Conference on Intelligent Robots and Systems (IROS'94) Pub Date : 1994-09-12 DOI:10.1109/IROS.1994.407378

D. Gachet, M. Salichs, L. Moreno, J. Pimentel

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引用次数: 40

摘要

我们通过使用特殊的神经网络拓扑AHC(自适应启发式批评)提出了一种强化学习算法的实现。AHC被用作原始行为的融合监督器，以执行更复杂的机器人行为，例如到达目标，监视或遵循路径。融合监督器是用于执行移动机器人任务的体系结构的一部分，该任务由几个以同时或并发方式行动的原始行为组成。该体系结构允许在执行层进行学习，它结合了在执行基本行为和整体任务中获得的经验。这种自主学习方法的实现已经在移动机器人的模拟环境OPMOR和我们的移动平台UPM Robuter中进行了测试。给出了仿真结果和实际结果。AHC神经网络的性能是足够的。这项工作的一部分已经在欧共体ESPRIT 2483 PANORAMA项目中实现

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Learning emergent tasks for an autonomous mobile robot

We present an implementation of a reinforcement learning algorithm through the use of a special neural network topology, the AHC (adaptive heuristic critic). The AHC is used as a fusion supervisor of primitive behaviors in order to execute more complex robot behaviors, for example go to goal, surveillance or follow a path. The fusion supervisor is part of an architecture for the execution of mobile robot tasks which are composed of several primitive behaviors which act in a simultaneous or concurrent fashion. The architecture allows for learning to take place at the execution level, it incorporates the experience gained in executing primitive behaviors as well as the overall task. The implementation of this autonomous learning approach has been tested within OPMOR, a simulation environment for mobile robots and with our mobile platform, the UPM Robuter. Both, simulated and actual results are presented. The performance of the AHC neural network is adequate. Portions of this work has been implemented within the EEC ESPRIT 2483 PANORAMA Project.<>

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Proceedings of IEEE/RSJ International Conference on Intelligent Robots and Systems (IROS'94)

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