A semi-active robot for steep obstacle ascent

机译：用于陡峭障碍上升的半主动机器人

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In this paper we propose a semi-active robot for climbing steep obstacles like steps, curbs, etc. The key novelty of the proposed robot lies in the use of a passive mechanism for climbing steps of smaller heights and motor only while climbing steps of bigger heights. Analysis of the robot's stability during its ascent phase is also investigated. Model based control is used to achieve step climbing. The other novelty of the robot, in contrast to existing active suspension step climbers, is that it does not need the knowledge of step height beforehand. Therefore, the mechanism has the advantage of height-independent climbing motion as in the case of passive mechanism along with the extra freedom of active joints for maintaining vehicle stability, only when required. Efficacy of the mechanism is exhibited through simulations on steps of various heights.

机译：在本文中，我们提出了一个半主动机器人，用于攀爬陡峭的障碍物，如步骤，路缘，路径等。所提出的机器人的关键新颖性在于使用用于攀爬较小高度和电机的步长的被动机制，同时攀爬更大的步骤高度。还研究了在其上升期间的机器人稳定性的分析。基于模型的控制用于实现步进攀爬。与现有的活性悬架步骤中的其他新颖的机器人的新颖性是事先不需要阶梯高度的知识。因此，仅在被动机构的情况下，该机构具有高度独立的攀爬运动的优点，以及用于维持车辆稳定性的额外自由度。通过对各种高度的步骤进行模拟表现出机制的功效。

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《IEEE International Conference on Control Applications》|2013年||共6页
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Avinash S; Anurag V V; Singh A K; Shah S V;
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中图分类自动控制、自动控制系统;
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A semi-active robot for steep obstacle ascent

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