A control algorithm for hexapod walking machine over soft ground

IEEE J. Robotics Autom. Pub Date : 1988-06-01 DOI:10.1109/56.790
M. Kaneko, K. Tanie, Nor Bin Mohamad Than
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引用次数: 25

Abstract

A control algorithm is presented for a hexapod walking machine, with alternating tripod-gait, proceeding over soft ground. The control algorithm is based on a foot-force sensing and is composed of two parts. The first part, which is applied to the leg alternating phase, confirms the support of body weight and generates the ground model using internal sensors. The second, which is applied to the body-propelling phase, compensates for the additional ground-sinkage due to the change of supporting force using the generated ground model. The proposed control algorithm is incorporated into the hexapod walking machine (MELWALK-III) and some basic experiments are performed to demonstrate the effectiveness of the algorithm for three types of ground simulations. >
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软地行走六足机器人的控制算法
提出了一种具有三足交替步态的六足步行机器人在软地面上行走的控制算法。该控制算法基于足力传感,由两部分组成。第一部分应用于腿部交替阶段,确认身体重量的支撑,并使用内部传感器生成地面模型。第二个模型应用于体推进阶段,利用生成的地面模型补偿由于支撑力变化而产生的额外地面下沉。将所提出的控制算法应用于六足步行机MELWALK-III中,并进行了三种地面仿真实验,验证了该算法的有效性。>
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IEEE J. Robotics Autom.
IEEE J. Robotics Autom.
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