FUTURE MOTION DECISIONS USING STATE-ACTION PAIR PREDICTIONS

Masashi Sugimoto, K. Kurashige
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引用次数: 4

Abstract

Robots that works in a dynamic environment must possess, the ability to autonomously cope with the changes in the environment. This paper proposes an approach to predict changes in the state and actions of robots. Further, this approach attempts to apply predicted future actions to current actions. This method predicts the robot’s state and action for the distant future using the states that the robot adopts repeatedly. Using this method, the actions that the robot will take in the future can be predicted. The method proposed in this paper predicts the state and action of a robot each time it decides to perform an action. In particular, this paper focuses on defining weight coefficients, using the characteristics of the future prediction results. Using this method, the compensatory current action will be obtained. This paper presents the results of our study and discusses methods that allow the robot to quickly determine its most desirable action, using state prediction and optimal control methods.
使用状态-动作对预测的未来运动决策
在动态环境中工作的机器人必须具备自主应对环境变化的能力。本文提出了一种预测机器人状态和动作变化的方法。此外,这种方法试图将预测的未来行为应用于当前行为。该方法利用机器人反复采用的状态来预测机器人在遥远未来的状态和动作。利用这种方法,可以预测机器人未来将要采取的行动。本文提出的方法在机器人每次决定执行动作时预测其状态和动作。特别是,本文着重于利用未来预测结果的特征来定义权重系数。利用这种方法,可以得到补偿电流动作。本文介绍了我们的研究结果,并讨论了使用状态预测和最优控制方法使机器人快速确定其最理想动作的方法。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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