基于6自由度机械臂的脊柱运动控制
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Spinal Kinetic Control Based on a 6-DOF Robotic Manipulator
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    摘要:

    目的 研究并建立基于6自由度机械臂的脊柱运动控制系统,为模拟脊柱运动及内固定植入物相关生物力学测试提供稳定有效的测试方案。方法 首先研究L2~5节段脊柱系统刚度矩阵识别方法 ,并通过此刚度矩阵对进行系统解耦。其次,联合六轴机械臂控制系统及增步式PID控制算法,建立各个轴向运动的直接力控制系统。最后,通过此套六轴直接力控制系统对L2~5节段脊柱模型进行前屈后伸(flexion-extension,FE)、左右侧弯(lateral bending,LB)、左右扭转(axial rotation,AR)运动模拟,各个运动中均只在主运动轴方向上施加7.5 N·m纯力矩。结果 脊柱L2~5节段在FE、LB、AR运动中活动度(range of motion, ROM)分别为23.01°、27.92°、9.81°。主运动轴运动载荷均能达到7.5 N·m,其他非主运动轴均能保持在零载荷,控制误差均方根值(root mean square, RMS)小于3 N和0.1 N·m。结论 提出的含系统刚度矩阵解耦和增步式PID的直接力控算法,能够有效地对脊柱施加 FE、LB、AR运动上的纯力矩,控制精度较高。研究结果对各类腰颈椎生物力学测试具有较高的工程应用价值。

    Abstract:

    Objective To design and implement a control algorithm in a 6 degree of freedom (DOF) robotic manipulator, so as to simulate the spinal motion and provide stable and efficient testing plan for biomechanical tests on spinal implants. Methods The recognition method of stiffness matrix for L2-5 spinal system was firstly studied for decoupling purpose. Secondly, the direct force control system under each axial motion was established by combining the 6-axis manipulator control system with the incremental proportion integration differentiation (PID) control algorithm. By using the 6-axis direct force control system, pure moment of 7.5 N·m was applied in the direction of main motion axis to simulate flexion-extension (FE), lateral bending (LB) and axial rotation (AR) motion of L2-5 spinal segment. Results The range of motion (ROM) of L2-5 segment in FE, LB and AR direction was 23.01°,27.92°,9.81°, respectively. A 7.5 N·m pure moment could be achieved in the main motion axis, while maintaining zero force/moment in the unconstrained axis with root mean square (RMS) errors being less than 3 N and 0.1 N·m, respectively. Conclusions The proposed algorithm of direct force control using PID controller with predetermined stiffness decoupling matrix was capable of applying pure moment to the spine under FE, LB, AR motion. The research findings have a relatively high value of engineering application for various biomechanical testing of lumbar vertebrae.

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叶焰杰,林宇峰,蔡达威,曾达.基于6自由度机械臂的脊柱运动控制[J].医用生物力学,2019,34(4):399-403

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  • 收稿日期:2018-07-11
  • 最后修改日期:2018-08-29
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  • 在线发布日期: 2019-08-28
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