Risk Prediction of a Behavior-based Adhesion Control Network for Online Safety Analysis of Wall-climbing Robots

机译：基于行为的粘附控制网络的风险预测，用于攀岩机器人的在线安全分析

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Risk analysis in combination with terrain classification is a common approach in mobile robotics to adapt robot control to surface conditions. But for climbing robots it is hard to specify, how the robotic system and especially the adhesion is affected by different surfaces and environmental features. This paper will introduce the climbing robot CROMSCI using negative pressure adhesion via multiple chambers, adaptive inflatable sealings and an omnidirectional drive system. It presents the used behavior-based control network which allows the balancing of adhesion force, but fails in extreme situations. Therefore, a risk prediction has been developed which evaluates behavioral meta-data and allows an estimation of current hazards caused by the environment. This prediction is used to perform evasive actions to prevent the robot from falling down.

机译：风险分析与地形分类的组合是移动机器人中的一种常见方法，以适应机器人控制到表面条件。但是对于攀爬机器人来说，很难指定，机器人系统如何以及尤其是粘附受不同的表面和环境特征的影响。本文将使用多个腔室，自适应充气密封和全向驱动系统介绍使用负压粘合的攀爬机器人Cromsci。它介绍了基于使用的基于行为的控制网络，其允许平衡粘附力，但在极端情况下失败。因此，已经开发了风险预测，其评估行为元数据，并允许估计由环境引起的当前危害。该预测用于执行撤销动作以防止机器人掉落。

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《International Conference on Informatics in Control, Automation and Robotics》|2012年||共6页
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作者
Daniel Schmidt; Karsten Berns;
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中图分类 TP2-53;
关键词
Genetic Algorithm; Behavior-based; Risk Prediction; Climbing Robot;

机译：遗传算法;基于行为;风险预测;攀登机器人;

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4. Risk Prediction of a Behavior-based Adhesion Control Network for Online Safety Analysis of Wall-climbing Robots [C] . Daniel Schmidt, Karsten Berns International Conference on Informatics in Control, Automation and Robotics . 2012

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Risk Prediction of a Behavior-based Adhesion Control Network for Online Safety Analysis of Wall-climbing Robots

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