Chang Zhu, Quan Liu, W. Meng, Qingsong Ai, Shengquan Xie
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引用次数: 17
Abstract
Estimation of lower limb movement is crucial in exoskeleton-assisted gait rehabilitation which can reduce the training load by recognizing the movement intention of patients, so as to realize the adaptive and transparent robotic assistance. Human locomotion has inherent synergies and coordination, and the dynamic mapping of the upper and lower limbs is beneficial to improve the prediction accuracy. Current prediction methods do not fully consider the correlation of gait data in time and space, resulting in a large amount of redundant data and low prediction accuracy. This paper proposes a gait trajectory prediction method based on attention-based CNN-LSTM model, which predicts the human knee/ankle joint trajectory based on upper and lower limb collaborative data. The attention mechanism is applied to determine which dimensions are essential in estimation of lower limb movement, so the accuracy can be improved by adopting key elements. Results show that, within a predicted horizon of 60 ms, prediction RMSE is as low as 0.317 degrees.
期刊介绍:
IEEE/ASME Transactions on Mechatronics publishes high quality technical papers on technological advances in mechatronics. A primary purpose of the IEEE/ASME Transactions on Mechatronics is to have an archival publication which encompasses both theory and practice. Papers published in the IEEE/ASME Transactions on Mechatronics disclose significant new knowledge needed to implement intelligent mechatronics systems, from analysis and design through simulation and hardware and software implementation. The Transactions also contains a letters section dedicated to rapid publication of short correspondence items concerning new research results.
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