Yujiang Xiang scite author profile

SUMMARYA new methodology is introduced in this work to simulate normal walking using a spatial digital human model. The proposed methodology is based on an optimization formulation that minimizes the dynamic effort of people during walking while considering associated physical and kinematical constraints. Normal walking is formulated as a symmetric and cyclic motion. Recursive Lagrangian dynamics with analytical gradients for all the constraints and objective function are incorporated in the optimization process. Dynamic balance of the model is enforced by direct use of the equations of motion. In addition, the ground reaction forces are calculated using a new algorithm that enforces overall equilibrium of the human skeletal model. External loads on the human body, such as backpacks, are also included in the formulation. Simulation results with the present methodology show good correlation with the experimental data obtained from human subjects and the existing literature.

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Physics-based modeling and simulation of human walking: a review of optimization-based and other approaches

Xiang

Arora

Abdel‐Malek

2010

Struct Multidisc Optim

114

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Human lifting simulation using a multi-objective optimization approach

et al. 2010

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Predictive dynamics: an optimization-based novel approach for human motion simulation

Xiang

Chung

Kim

et al. 2009

Struct Multidisc Optim

106

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Optimization-based prediction of asymmetric human gait

Xiang

Arora

Abdel‐Malek

2011

Journal of Biomechanics

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Optimization-based motion prediction of mechanical systems: sensitivity analysis

Xiang

Arora

Abdel‐Malek

2008

Struct Multidisc Optim

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Optimal crashworthiness design of a spot-welded thin-walled hat section

Xiang

Wang

Zhong

et al. 2006

Finite Elements in Analysis and Design

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Optimization-based Dynamic Human Walking Prediction

Xiang¹,

Chung²,

Mathai³

et al. 2007

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Yujiang Xiang

Optimization‐based dynamic human walking prediction: One step formulation

Physics-based modeling and simulation of human walking: a review of optimization-based and other approaches

Human lifting simulation using a multi-objective optimization approach

Predictive dynamics: an optimization-based novel approach for human motion simulation

Optimization-based prediction of asymmetric human gait

Optimization-based motion prediction of mechanical systems: sensitivity analysis

Optimal crashworthiness design of a spot-welded thin-walled hat section

Optimization-based Dynamic Human Walking Prediction

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