learning (artificial intelligence); medical computing; pattern classification; statistical analysis; time series; COP data; balance assessment studies; balance control; center-of-pressure displacements time series; classification methods; force platform; healthy matched subjects; healthy subject recognition; human functional independence; linear posturographic features; machine learning techniques; nonlinear posturographic features; quiet upright stance; statistical analysis; stroke patients; stroke physiological systems; Accuracy; Databases; Feature extraction; Joints; Measurement; Stochastic processes; Time series analysis; balance control; center-of-pressure; classification methods; feature extraction; nonlinear dynamics;
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机译:基于卒中患者的主题损伤模式,通过针对肌肉辅助的肢体冲程康复
机译:健康受试者和急性心肌梗死后心率变异性的线性和非线性分析
机译:健康受试者和急性心肌梗死后心率变异性的线性和非线性分析