Energy-Efficiency in Legged Robots Locomotion: Open versus Closed Chains*

2020 International Conference Nonlinearity, Information and Robotics (NIR) Pub Date : 2020-12-03 DOI:10.1109/NIR50484.2020.9290214

R. A. Zashchitin, I. Borisov, O. Borisova, S. Kolyubin

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Abstract

Quadrupedal gallop is one of the fastest and efficient forms of locomotion that can be found in nature. Engineers in the field of robotics use it as a source of inspiration to create legged robots. The most common model to describe galloping is the spring-loaded inverted pendulum, representing the body as a mass, while legs perform a spring-like bouncing movement. There are many design choices to implement a robotic system to get desirable bouncing dynamics. This paper compares two opposite ways to design a hopping robot in terms of energy-efficiency: algorithmically with an open chain or mechanically with a closed chain. The first way takes a relatively simple serial kinematic chain and, via impedance control algorithms, perform passive dynamic interaction with the ground. The second way takes SLIP-synthesized underactuated mechanism and via simple position and velocity control perform the same passive dynamic interaction with the ground. The paper contains a detailed description of the hoppers, analysis, and simulation results.

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有腿机器人运动的能量效率:开放链与封闭链*

四足疾驰是自然界中最快、最有效的运动形式之一。机器人领域的工程师将其作为灵感来源，创造出有腿的机器人。描述飞奔的最常见的模型是弹簧加载的倒立摆，将身体表示为一个质量，而腿则执行弹簧一样的弹跳运动。实现机器人系统有许多设计选择，以获得理想的弹跳动力学。本文从能量效率的角度比较了两种相反的跳跃机器人设计方法:算法上的开链和机械上的闭链。第一种方法采用相对简单的串行运动链，并通过阻抗控制算法与地面进行被动动态交互。第二种方法采用滑动合成欠驱动机构，通过简单的位置和速度控制与地面进行同样的被动动态交互。文中对料斗进行了详细的描述、分析和仿真结果。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

2020 International Conference Nonlinearity, Information and Robotics (NIR)

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