Wudai Liao scite author profile

To date, several alterations in the gait pattern can be treated through rehabilitative approaches and robot assisted therapy (RAT). Gait data and gait trajectories are essential in specific exoskeleton control strategies. Nevertheless, the scarcity of human gait data due to the high cost of data collection or privacy concerns can hinder the performance of controllers or models. This paper thus first creates a GANs-based (Generative Adversarial Networks) data augmentation method to generate synthetic human gait data while still retaining the dynamics of the real gait data. Then, both the real collected and the synthesized gait data are fed to our constructed two-stage attention model for gait trajectories prediction. The real human gait data are collected with the five healthy subjects recruited from an optical motion capture platform. Experimental results indicate that the created GANs-based data augmentation model can synthesize realistic-looking multi-dimensional human gait data. Also, the two-stage attention model performs better compared with the LSTM model; the attention mechanism shows a higher capacity of learning dependencies between the historical gait data to accurately predict the current values of the hip joint angles and knee joint angles in the gait trajectory. The predicted gait trajectories depending on the historical gait data can be further used for gait trajectory tracking strategies.

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Nonlinear Inertia Weight Variation for Dynamic Adaptation in Particle Swarm Optimization

Liao

Wang

2011

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Fractional PID based stability control for a single link rotary inverted pendulum

Liao

Liu

Wen

et al. 2015

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Wudai Liao

Exponential Stability of Delayed Stochastic Cellular Neural Networks

Optimization of PID control for DC motor based on artificial bee colony algorithm

Human Gait Data Augmentation and Trajectory Prediction for Lower-Limb Rehabilitation Robot Control Using GANs and Attention Mechanism

Nonlinear Inertia Weight Variation for Dynamic Adaptation in Particle Swarm Optimization

Fractional PID based stability control for a single link rotary inverted pendulum

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