MUSCLE FORCE PREDICTION IN OPENSIM USING SKELETON MOTION OPTIMIZATION RESULTS AS INPUT DATA

机译：使用骨骼运动优化结果作为输入数据在OPENSIM中进行肌肉力预测

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This paper describes an integrated approach to predict human leg and spine muscle forces during lifting by integration of a predictive skeletal model with OpenSim. The two-dimensional (2D) skeletal lifting motion is first predicted by using an inverse dynamics optimization method. Then, the prediction outputs, including joint angle profiles, ground reaction forces, and center of pressure, are incorporated in OpenSim biomechanics software to analyze muscle forces for lifting. Therefore, the integrated approach has predictive capability on musculoskeletal level. By using this method, we can predict and analyze muscles forces for heavy weight lifting motion which is difficult to simulate directly using a 3D musculoskeletal model.

机译：本文介绍了一种集成方法，可通过将预测性骨骼模型与OpenSim集成来预测举重过程中人的腿部和脊柱肌肉力量。首先使用逆动力学优化方法预测二维（2D）骨骼举升运动。然后，将预测输出（包括关节角度分布，地面反作用力和压力中心）整合到OpenSim生物力学软件中，以分析用于举升的肌肉力。因此，该综合方法具有肌肉骨骼水平的预测能力。通过使用这种方法，我们可以预测和分析用于举重运动的肌肉力，而这很难直接使用3D肌肉骨骼模型进行模拟。

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《ASME International Design Engineering Technical Conferences;Computers and Information in Engineering Conference》|2019年|V001T02A046.1-V001T02A046.5|共5页
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Rahid Zaman; Yujiang Xiang; Ritwik Rakshit; James Yang;
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Motion prediction; inverse dynamics optimization; muscle force; OpenSim; lifting;

机译：运动预测;逆动力学优化;肌肉力量OpenSim;起重;

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机译：LSTM深度学习模型在船舶运动的实时预测中的输入向量空间优化
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机译：轮椅推进过程中静态和动态优化肌肉力预测的比较。
3. Muscle Synergies May Improve Optimization Prediction of Knee Contact Forces During Walking [J] . Jonathan P. Walter, Allison L. Kinney, Scott A. Banks, Journal of biomechanical engineering. . 2014,第2期

机译：肌肉协同作用可能会改善步行过程中膝盖接触力的优化预测
4. OPTIMIZATION OF BI-ARTICULAR MUSCLE FORCES WHEN GOING OVER OBSTACLES DURING LOCOMOTION [C] . Mehran Armand, Jan P. Huissoon, Aftab E. Patla . 1997

机译：运动过程中越过障碍物时双关节肌肉力的优化
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机译：基于优化的肌肉力预测分析。
6. Muscle Synergies May Improve Optimization Prediction of Knee Contact Forces During Walking [O] . Jonathan P. Walter, Allison L. Kinney, Scott A. Banks, -1

机译：肌肉协同作用可能会改善步行过程中膝盖接触力的优化预测
7. A comparison of static and dynamic optimization muscle force predictions during wheelchair propulsion [O] . Melissa M. Morrow, Jeffery W. Rankin, Richard R. Neptune, 2014

机译：轮椅推进过程中静态和动态优化肌力预测的比较
8. Prediction of Stochastic Blade Responses Using Measured Wind-Speed Data as Input to the FLAP (Force and Loads Analysis Program). [R] . Wright, A. D., Thresher, R. W. 1988

机译：使用测量的风速数据作为FLap（力和载荷分析程序）的输入来预测随机叶片响应。

MUSCLE FORCE PREDICTION IN OPENSIM USING SKELETON MOTION OPTIMIZATION RESULTS AS INPUT DATA

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