Investigate Feasibility of Model-Based Design Approach to Develop a Biped Walking Robot

A. Babu, B. Kotturshettar, A. Giriyapur
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引用次数: 2

Abstract

Legged motion has significant advantages over traditional locomotion techniques. Research and development on it have been constantly improving over the last couple of decades. Though there are numerous techniques in developing legged biped motion, none of them is fully satisfactory. The main aspects of legged motion are active balancing, smooth pattern generation and control. These play an important role in legged motion and there are numerous techniques developed to achieve it. The research that is shown in this project is to implement model-based design methodology in developing ZMP stability algorithm. The main area that is been concentrated in the implementation of hardware-in-loop (HIL) simulation using an xPC – target computer. The robot walking gait is generated by developing a Simulink plant model where the joint angles are tested on a virtual simulation platform.
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研究基于模型的两足步行机器人设计方法的可行性
与传统的运动技术相比,腿部运动具有显著的优势。在过去的几十年里,对它的研究和开发一直在不断改进。虽然有许多技术在发展腿两足运动,没有一个是完全令人满意的。腿部运动的主要方面是主动平衡、平滑模式生成和控制。这些在腿部运动中起着重要的作用,有许多技术被开发出来实现它。本课题的研究内容是将基于模型的设计方法应用于ZMP稳定性算法的开发。本文主要研究了利用xPC -目标计算机实现硬件在环仿真。通过建立Simulink工厂模型生成机器人的步行步态,并在虚拟仿真平台上测试机器人的关节角度。
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