物理投影

2019 IEEE 10th International Conference on Awareness Science and Technology (iCAST) Pub Date : 2019-10-01 DOI:10.1109/ICAwST.2019.8923455

N. Iwahashi

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引用次数: 2

摘要

这项研究提出了一种称为物理投影的方法，通过这种方法，机器人可以在线和主动地学习物理世界并预测其行为的影响。这种方法使用了三个组件:机器人、物理世界模型和物理引擎。物理投影过程包含一个双环结构，包括一个用于学习物理世界模型的实环和一个用于模拟搜索的虚环。实验采用TurtleBot3移动机器人和Unity图形引擎进行。结果有效地证明了机器人可以预测在给定的物理条件下它所执行的各种动作的影响，成功地执行了搬运酒杯和装满水的杯子的任务，而不会掉落或溢出其中的内容，并预测了人类操作员无法预测的灾难性影响。所提出的方法将有助于使机器人能够预测其动作的效果，并确定在动态变化的物理世界中执行的适当动作。

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Physics Projection

This study presents an approach termed physics projection, via which robots can learn about the physical world and predict the effects of their actions online and in an active manner. This approach employs three components: a robot, physical world model, and physics engine. The physics projection process involves a double loop structure comprising a real loop for learning the physical world model and an imaginary loop for a simulation search. Experiments were performed using the TurtleBot3 mobile robot and Unity graphics engine. The results effectively demonstrate that the robot can predict the effects of various actions performed by it under the given physical conditions, successfully execute the tasks of carrying a wine glass and a cup filled with water without dropping them or spilling their contents, and predict a catastrophic effect that could not be predicted by a human operator. The proposed method would contribute to enable robots to predict the effects of their actions and determine appropriate actions to perform in a dynamically changing physical world.

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来源期刊

2019 IEEE 10th International Conference on Awareness Science and Technology (iCAST)

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