Modeling a Predictive Control of Human Locomotion Based on the Dynamic Behavior

Research Anthology on Emerging Technologies and Ethical Implications in Human Enhancement Pub Date : 1900-01-01 DOI:10.4018/978-1-5225-2993-4.CH013

J. M. Rosário, L. F. Melo, D. Dumur, M. Makarov, Jessica Fernanda Pereira Zamaia, G. F. C. Campos

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Abstract

This chapter presents the development of a lower limb orthosis based on the continuous dynamic behavior and on the events presented on the human locomotion, when the legs alternate between different functions. A computational model was developed to approach the different functioning models related to the bipedal anthropomorphic gait. Lagrange modeling was used for events modeling the non-holonomic dynamics of the system. This chapter combines the comparison of the use of the predictive control based on dynamical study and the decoupling of the dynamical model, with auxiliary parallelograms, for locating the center of mass of the mechanism using springs in order to achieve the balancing of each leg. Virtual model was implemented and its kinematic and dynamic motion analyzed through simulation of an exoskeleton, aimed at lower limbs, for training and rehabilitation of the human gait, in which the dynamic model of anthropomorphic mechanism and predictive control architecture with robust control is already developed.

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基于动态行为的人体运动预测控制建模

本章介绍了一种基于连续动态行为的下肢矫形器的发展，以及当腿部在不同功能之间交替时，人体运动所呈现的事件。建立了一个计算模型来探讨与两足拟人步态相关的各种功能模型。采用拉格朗日模型对系统的非完整动力学进行事件建模。本章结合了基于动力学研究的预测控制与动力学模型解耦的比较，结合辅助平行四边形，利用弹簧定位机构的质心，以实现各腿的平衡。通过对用于人体步态训练与康复的下肢外骨骼的仿真，实现了虚拟模型的建立，分析了其运动学和动力学运动，建立了拟人机构的动力学模型和鲁棒控制的预测控制体系结构。

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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Research Anthology on Emerging Technologies and Ethical Implications in Human Enhancement

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