Optimization of Joint Space Trajectories for Assistive Lower Limb Exoskeleton Robots: Real-Time and Flexible Gait Patterns

IF 3.1 4区计算机科学 Q2 COMPUTER SCIENCE, ARTIFICIAL INTELLIGENCE Journal of Intelligent & Robotic Systems Pub Date : 2024-08-20 DOI:10.1007/s10846-024-02137-9

Habib Mohamad, Sadjaad Ozgoli, Jafar Kazemi

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Abstract

This research focuses on designing a real-time, flexible gait planner for lower limb exoskeleton robots to assist patients with lower limb disabilities. Given the dynamic nature of gait parameters, which vary according to ground conditions and user intent, the challenge lies in developing a gait planner capable of adapting to these changes in real-time. To avoid planning complications in the cartesian space and to comply with the speed constraints of joint motors, this paper proposes planning in joint space. Furthermore, the approach also considers the maximum speed capabilities of the joint motors, aiming to generate an executable gait pattern and simultaneously enhance the robot’s walking speed by determining the minimum time required for implementation. The introduced gait planner optimizes joint trajectories for minimal angular acceleration. To provide flexibility, generalized boundary conditions suitable for different scenarios are defined. The effectiveness of the proposed planner is validated through comprehensive performance analysis, simulations, and successful implementation trials on the Exoped^® robot in various scenarios.

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辅助性下肢外骨骼机器人的关节空间轨迹优化：实时和灵活的步态模式

这项研究的重点是为下肢外骨骼机器人设计一种实时、灵活的步态规划器，以帮助下肢残疾患者。考虑到步态参数随地面条件和用户意图的变化而变化的动态性质，挑战在于开发一种能够实时适应这些变化的步态规划器。为了避免直角坐标空间规划的复杂性，并符合关节电机的速度限制，本文提出了关节空间规划。此外，该方法还考虑了关节电机的最大速度能力，旨在生成可执行的步态模式，同时通过确定执行所需的最短时间来提高机器人的行走速度。所引入的步态规划器可优化关节轨迹，以实现最小角加速度。为了提供灵活性，定义了适用于不同场景的通用边界条件。通过全面的性能分析、仿真以及在 Exoped® 机器人上各种场景下的成功实施试验，验证了所提出的规划器的有效性。

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来源期刊

Journal of Intelligent & Robotic Systems 工程技术-机器人学

CiteScore

7.00

自引率

9.10%

发文量

219

审稿时长

6 months

期刊介绍： The Journal of Intelligent and Robotic Systems bridges the gap between theory and practice in all areas of intelligent systems and robotics. It publishes original, peer reviewed contributions from initial concept and theory to prototyping to final product development and commercialization. On the theoretical side, the journal features papers focusing on intelligent systems engineering, distributed intelligence systems, multi-level systems, intelligent control, multi-robot systems, cooperation and coordination of unmanned vehicle systems, etc. On the application side, the journal emphasizes autonomous systems, industrial robotic systems, multi-robot systems, aerial vehicles, mobile robot platforms, underwater robots, sensors, sensor-fusion, and sensor-based control. Readers will also find papers on real applications of intelligent and robotic systems (e.g., mechatronics, manufacturing, biomedical, underwater, humanoid, mobile/legged robot and space applications, etc.).