Posture Control of Legged Locomotion Based on Virtual Pivot Point Concept

IF 4.9 3区 计算机科学 Q1 ENGINEERING, MULTIDISCIPLINARY
Hao Sun, Junjie Yang, Yinghao Jia, Changhong Wang
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引用次数: 0

Abstract

This paper presents a novel control approach for achieving robust posture control in legged locomotion, specifically for SLIP-like bipedal running and quadrupedal bounding with trunk stabilization. The approach is based on the virtual pendulum concept observed in human and animal locomotion experiments, which redirects ground reaction forces to a virtual support point called the Virtual Pivot Point (VPP) during the stance phase. Using the hybrid averaging theorem, we prove the upright posture stability of bipedal running with a fixed VPP position and propose a VPP angle feedback controller for online VPP adjustment to improve performance and convergence speed. Additionally, we present the first application of the VPP concept to quadrupedal posture control and design a VPP position feedback control law to enhance robustness in quadrupedal bounding. We evaluate the effectiveness of the proposed VPP-based controllers through various simulations, demonstrating their effectiveness in posture control of both bipedal running and quadrupedal bounding. The performance of the VPP-based control approach is further validated through experimental validation on a quadruped robot, SCIT Dog, for stable bounding motion generation at different forward speeds.

Abstract Image

基于虚拟枢轴点概念的腿部运动姿态控制
本文提出了一种新的控制方法来实现腿运动的鲁棒姿态控制,特别是对于类滑移的两足奔跑和躯干稳定的四足跳跃。该方法基于在人类和动物运动实验中观察到的虚拟钟摆概念,在站立阶段将地面反作用力重定向到一个称为虚拟支点(VPP)的虚拟支撑点。利用混合平均定理证明了VPP位置固定时两足行走直立姿态的稳定性,并提出了VPP角度反馈控制器用于在线调整VPP,提高了性能和收敛速度。此外,我们首次将VPP概念应用于四足姿态控制,并设计了VPP位置反馈控制律以增强四足边界的鲁棒性。我们通过各种仿真来评估所提出的基于vpp的控制器的有效性,证明了它们在两足奔跑和四足跳跃的姿态控制中的有效性。通过对四足机器人SCIT Dog的实验验证,进一步验证了基于vpp的控制方法在不同前进速度下产生稳定的边界运动的性能。
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来源期刊
Journal of Bionic Engineering
Journal of Bionic Engineering 工程技术-材料科学:生物材料
CiteScore
7.10
自引率
10.00%
发文量
162
审稿时长
10.0 months
期刊介绍: The Journal of Bionic Engineering (JBE) is a peer-reviewed journal that publishes original research papers and reviews that apply the knowledge learned from nature and biological systems to solve concrete engineering problems. The topics that JBE covers include but are not limited to: Mechanisms, kinematical mechanics and control of animal locomotion, development of mobile robots with walking (running and crawling), swimming or flying abilities inspired by animal locomotion. Structures, morphologies, composition and physical properties of natural and biomaterials; fabrication of new materials mimicking the properties and functions of natural and biomaterials. Biomedical materials, artificial organs and tissue engineering for medical applications; rehabilitation equipment and devices. Development of bioinspired computation methods and artificial intelligence for engineering applications.
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