Designing an Adaptive Prosthetic Socket Controller Using H-Infinity Loop Shaping Synthesis

Harrison H. Nguyen, Christopher Shallal, N. Thakor
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Abstract

Amputees often find wearing a prosthetic limb for a long period of time uncomfortable. Prosthetic sockets that adjust the socket’s fit automatically, or adaptive sockets, would encourage amputees to wear their prosthesis more frequently. In this work, we simulate the control system design of a Multiple-Input, Multiple-Output (MIMO) adaptive socket using principles of optimal control and robust control. A data-driven model of the socket-limb interface is first obtained by applying regression to open-loop recordings of the socket interacting with the limb during a simulated grasping task. A MIMO controller is then designed to maintain a desired uniform socket fit. An $H_{\infty}$ controller, obtained from loop shaping synthesis using the Glover-McFarlane method, is shown to perform comparably to a Linear Quadratic Gaussian (LQG) controller while maintaining robustness to uncertainties in the socket-limb interface model. This work then outlines a potential procedure on how to develop the control system for a real adaptive prosthetic socket with multiple sensors and actuators.
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基于h -无限环整形综合的自适应假肢插座控制器设计
截肢者经常发现长时间佩戴假肢很不舒服。自动调整假肢适配度的假肢或适应性假肢将鼓励截肢者更频繁地佩戴假肢。在这项工作中,我们利用最优控制和鲁棒控制原理模拟了多输入多输出(MIMO)自适应插座的控制系统设计。通过对模拟抓取过程中插座与肢体相互作用的开环记录进行回归,首先得到了插座-肢体界面的数据驱动模型。然后设计MIMO控制器以保持所需的统一插座配合。利用Glover-McFarlane方法进行环路整形合成得到的$H_{\infty}$控制器的性能与线性二次高斯(LQG)控制器相当,同时对插座-肢体界面模型的不确定性保持鲁棒性。然后,这项工作概述了如何开发具有多个传感器和执行器的真正自适应假肢插座的控制系统的潜在程序。
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