摘要
目的 通过深度神经网络(deep neural network, DNN)分类模型揭示高里程跑者(high-mileage runner, HMR)和低里程跑者(low-mileage runner, LMR)跑步步态模式差异,并探讨逐层相关性传播(layer-wise relevance propagation, LRP)技术解释DNN分类器模型的决策有效性。方法 通过DNN对HMR和LMR总计1 200组跑步步态特征数据进行训练分类识别,采用LRP计算相关变量在不同步态阶段的相关性得分(relevance score, RS),提取高相关变量对步态模式差异进行解释性分析。结果 DNN对HMR和LMR的跑步步态模式特征分类精度达到91.25%。LRP计算结果显示支撑前期(1%~47%)各变量的成功分类贡献率高于支撑后期(48%~100%)。踝关节相关轨迹变量RS的贡献率总和达到43.10%,膝、髋关节贡献率分别为37.07%、19.83%。结论 膝、踝关节相关生物力学参数对识别HMR和LMR步态特征的贡献程度最高。跑步支撑早期可能包含更多步态模式信息,能够提升步态模式识别的有效性和敏感性。LRP实现了对模型预测结果的可行性解释,从而为分析步态模式提供了更有趣的见解和更有效的信息。
Objective To reveal the gait pattern differences between higher-mileage runners(HMR) and low-mileage runners(LMR) by using the deep neural network(DNN) classification model, and investigate the interpretability analysis of successfully recognized gait patterns by layer-wise relevance propagation(LRP) technique. Methods Through DNN, 1 200 groups of gait feature data from HMR and LMR were trained and classified. Then, the LRP was used to calculate the relevance score(RS) of relevant variables at each time point, and the high relevance variables were extracted to analyze the interpretability of gait pattern differences. Results The DNN model achieved 91.25% accuracy in gait feature classification between HMR and LMR. The contribution of variables during 1%-47% stance phase was higher than the contribution of variables during the 48%-100% stance phase to the successful classification. The sum contribution rate of the ankle joint related trajectory variable RS reached 43.10%, and that of the knee joint and hip joint was 37.07% and 19.83%,respectively. Conclusions The ankle and knee provide considerable information can help recognize gait features between HMR and LMR. The early stages of the stance are very important in the term of gait pattern recognition because it may contain more effective information about gait patterns. LRP completes a feasible interpretation of the predicted result of the model, thus providing more interesting insights and more effective information for analyzing gait patterns.
作者
徐大涛
全文静
周辉宇
孙冬
Julien S.BAKER
顾耀东
XU Datao;QUAN Wenjing;ZHOU Huiyu;SUN Dong;Julien SBAKER;GU Yaodong(Faculty of Sports Science,NingboUniversity,Ningbo 315211,Zhejiang,China;Faculty of Engineering,University of Pannonia,Veszprem 8200,Hungary;Savaria Institute of Technology,Eotvos Lorand University,Budapest 9700,Hungary;School of Health and Life Sciences,University of the West of Scotland,Scotland G720LH,UK;Department of Sport and Physical Education,Hong Kong Baptist University,Hong Kong 999077,China)
出处
《医用生物力学》
CAS
CSCD
北大核心
2022年第6期1151-1157,1164,共8页
Journal of Medical Biomechanics
基金
国家自然科学基金项目(81772423)
浙江省重点研发计划项目(2021C03130)。
关键词
跑步里程
步态模式识别
深度学习
运动生物力学
running mileage
gait pattern recognition
deep learning
sports biomechanics
