1、 SHU X,YU H,ZHOU Y,et al.Clinical study on low-frequency repetitive transcranial magnetic stimulation for the treatment of walking dysfunction following stroke through three-dimensional gait analysis[J].Psychogeriatrics,2024 ,24(2):182-194. SHU X,YU H,ZHOU Y,et al.Clinical study on low-frequency repetitive transcranial magnetic stimulation for the treatment of walking dysfunction following stroke through three-dimensional gait analysis[J].Psychogeriatrics,2024 ,24(2):182-194.
2、 LAN Z,LEMPEREUR M,GUERET G,et al.Towards a diagnostic tool for neurological gait disorders in childhood combining 3D gait kinematics and deep learning[J].Comput Biol Med,2024(171):108095. LAN Z,LEMPEREUR M,GUERET G,et al.Towards a diagnostic tool for neurological gait disorders in childhood combining 3D gait kinematics and deep learning[J].Comput Biol Med,2024(171):108095.
3、 SATHYA BAMA B,JINILA B.Vision-based gait analysis for real-time Parkinson disease identification and diagnosis system[J].Health Syst,2024,13(1):62-72. SATHYA BAMA B,JINILA B.Vision-based gait analysis for real-time Parkinson disease identification and diagnosis system[J].Health Syst,2024,13(1):62-72.
4、 WANG H,SU B,LU L,et al.Markerless gait analysis through a single camera and computer vision.[J] Biomech.2024 (165):112027. WANG H,SU B,LU L,et al.Markerless gait analysis through a single camera and computer vision.[J] Biomech.2024 (165):112027.
5、 DION G,TESSIER-POIRIER A,CHIASSON-POIRIER L,et al.In-sensor human gait analysis with machine learning in a wearable microfabricated accelerometer[J].Communications Engineering,2024,3(1):48. DION G,TESSIER-POIRIER A,CHIASSON-POIRIER L,et al.In-sensor human gait analysis with machine learning in a wearable microfabricated accelerometer[J].Communications Engineering,2024,3(1):48.
6、 KIM S,PARK S,LEE S,et al.Assessing physical abilities of sarcopenia patients using gait analysis and smart insole for development of digital biomarker[J].Sci Rep,2023,13(1):10602. KIM S,PARK S,LEE S,et al.Assessing physical abilities of sarcopenia patients using gait analysis and smart insole for development of digital biomarker[J].Sci Rep,2023,13(1):10602.
7、 MONOLI C,GALLI M,TUHTAN J A.Improving the reliability of underwater gait analysis using wearable pressure and inertial sensors[J].PLoS One,2024,19(3):e0300100. MONOLI C,GALLI M,TUHTAN J A.Improving the reliability of underwater gait analysis using wearable pressure and inertial sensors[J].PLoS One,2024,19(3):e0300100.
8、 CIMORELLI A,PATEL A,KARAKOSTAS T,et al.Validation of portable in-clinic video-based gait analysis for prosthesis users[J].Sci Rep,2024,14(1):3840. CIMORELLI A,PATEL A,KARAKOSTAS T,et al.Validation of portable in-clinic video-based gait analysis for prosthesis users[J].Sci Rep,2024,14(1):3840.
9、 XU D,ZHOU H,QUAN W,et al.A new method proposed for realizing human gait pattern recognition:Inspirations for the application of sports and clinical gait analysis[J].Gait Posture,2024(107):293-305. XU D,ZHOU H,QUAN W,et al.A new method proposed for realizing human gait pattern recognition:Inspirations for the application of sports and clinical gait analysis[J].Gait Posture,2024(107):293-305.
10、 MISHRA A,SHETKAR A,BAPAT G M,et al.XAI-based gait analysis of patients walking with Knee-Ankle-Foot orthosis using video cameras[EB/OL].2024:arXiv:2402.16175. MISHRA A,SHETKAR A,BAPAT G M,et al.XAI-based gait analysis of patients walking with Knee-Ankle-Foot orthosis using video cameras[EB/OL].2024:arXiv:2402.16175.
11、 刘展豪,冯重睿,鲁发华,等.三维步态指导下的骨盆控制训练对偏瘫患者的影响[J].国际医药卫生导报,2022,28(9):1292-1296. 刘展豪,冯重睿,鲁发华,等.三维步态指导下的骨盆控制训练对偏瘫患者的影响[J].国际医药卫生导报,2022,28(9):1292-1296.
12、 LEE J T,PARK E,JUNG T D.Machine learning-based classification of dependence in ambulation in stroke patients using smartphone video data[J].J Pers Med,2021,11(11):1080. LEE J T,PARK E,JUNG T D.Machine learning-based classification of dependence in ambulation in stroke patients using smartphone video data[J].J Pers Med,2021,11(11):1080.
13、 SABO A,MEHDIZADEH S,NG K D,et al.Assessment of Parkinsonian gait in older adults with dementia via human pose tracking in video data[J].J Neuroeng Rehabil,2020,17(1):97. SABO A,MEHDIZADEH S,NG K D,et al.Assessment of Parkinsonian gait in older adults with dementia via human pose tracking in video data[J].J Neuroeng Rehabil,2020,17(1):97.
14、 STRICKER M,HINDE D,ROLLAND A,et al.Quantifying step length using two-dimensional video in individuals with Parkinson's disease[J].Physiother Theory Pract,2021 ,37(1):252-255. STRICKER M,HINDE D,ROLLAND A,et al.Quantifying step length using two-dimensional video in individuals with Parkinson's disease[J].Physiother Theory Pract,2021 ,37(1):252-255.
15、 GUO Z,ZENG W,YU T,et al.Vision-based finger tapping test in patients with Parkinson's disease via spatial-temporal 3D hand pose estimation[J].IEEE J Biomed Health Inform,2022,26(8):3848-3859. GUO Z,ZENG W,YU T,et al.Vision-based finger tapping test in patients with Parkinson's disease via spatial-temporal 3D hand pose estimation[J].IEEE J Biomed Health Inform,2022,26(8):3848-3859.
16、 CAO X,XUE Y,CHEN J,et al.Video based shuffling step detection for parkinsonian patients using 3D convolution[J].IEEE Trans Neural Syst Rehabil Eng,2021(29):641-649. CAO X,XUE Y,CHEN J,et al.Video based shuffling step detection for parkinsonian patients using 3D convolution[J].IEEE Trans Neural Syst Rehabil Eng,2021(29):641-649.
17、 LONINI L,MOON Y,EMBRY K,et al.Video-based pose estimation for gait analysis in stroke survivors during clinical assessments:A proof-of-concept study[J].Digit Biomark,2022,6(1):9-18. LONINI L,MOON Y,EMBRY K,et al.Video-based pose estimation for gait analysis in stroke survivors during clinical assessments:A proof-of-concept study[J].Digit Biomark,2022,6(1):9-18.
18、 MCGUIRK T E,PERRY E S,SIHANATH W B,et al.Feasibility of markerless motion capture for three-dimensional gait assessment in community settings[J].Front Hum Neurosci,2022(16):867485. MCGUIRK T E,PERRY E S,SIHANATH W B,et al.Feasibility of markerless motion capture for three-dimensional gait assessment in community settings[J].Front Hum Neurosci,2022(16):867485.
19、 RUPPRECHTER S,MORINAN G,PENG Y,et al.A clinically interpretable computer-vision based method for quantifying gait in Parkinson’s disease[J].Sensors,2021,21(16):5437. RUPPRECHTER S,MORINAN G,PENG Y,et al.A clinically interpretable computer-vision based method for quantifying gait in Parkinson’s disease[J].Sensors,2021,21(16):5437.
20、 SAIKI Y,KABATA T,OJIMA T,et al.Reliability and validity of OpenPose for measuring hip-knee-ankle angle in patients with knee osteoarthritis[J].Sci Rep,2023,13(1):3297. SAIKI Y,KABATA T,OJIMA T,et al.Reliability and validity of OpenPose for measuring hip-knee-ankle angle in patients with knee osteoarthritis[J].Sci Rep,2023,13(1):3297.
21、 GA?NER H,RACCAGNI C,ESKOFIER B M,et al.The diagnostic scope of sensor-based gait analysis in atypical Parkinsonism:Further observations[J].Front Neurol,2019(10):5. GA?NER H,RACCAGNI C,ESKOFIER B M,et al.The diagnostic scope of sensor-based gait analysis in atypical Parkinsonism:Further observations[J].Front Neurol,2019(10):5.
22、 HE Z,LIU T,YI J.A wearable sensing and training system:Towards gait rehabilitation for elderly patients with knee osteoarthritis[J].IEEE Sens J,2019,19(14):5936-5945. HE Z,LIU T,YI J.A wearable sensing and training system:Towards gait rehabilitation for elderly patients with knee osteoarthritis[J].IEEE Sens J,2019,19(14):5936-5945.
23、 刘语诗,赵秀栩,冯鹤云,等.基于拓扑非线性动态建模的神经退行性疾病异常步态识别[J].集成技术,2022,11(4):92-105. 刘语诗,赵秀栩,冯鹤云,等.基于拓扑非线性动态建模的神经退行性疾病异常步态识别[J].集成技术,2022,11(4):92-105.
24、 FLACHENECKER F,GA?NER H,HANNIK J,et al.Objective sensor-based gait measures reflect motor impairment in multiple sclerosis patients:Reliability and clinical validation of a wearable sensor device[J].Mult Scler Relat Disord,2020(39):101903. FLACHENECKER F,GA?NER H,HANNIK J,et al.Objective sensor-based gait measures reflect motor impairment in multiple sclerosis patients:Reliability and clinical validation of a wearable sensor device[J].Mult Scler Relat Disord,2020(39):101903.
25、 张彦新. 三维步态分析技术的现状与发展[J].康复学报,2017,27(3):1-4. 张彦新. 三维步态分析技术的现状与发展[J].康复学报,2017,27(3):1-4.
26、 PETERSEN W,ELLERMANN A,ZANTOP T,et al.Biomechanical effect of unloader braces for medial osteoarthritis of the knee:A systematic review(CRD 42015026136)[J].Arch Orthop Trauma Surg,2016,136(5):649-656. PETERSEN W,ELLERMANN A,ZANTOP T,et al.Biomechanical effect of unloader braces for medial osteoarthritis of the knee:A systematic review(CRD 42015026136)[J].Arch Orthop Trauma Surg,2016,136(5):649-656.
27、 张孝强,王伟.智能可穿戴技术在军事医学领域的应用[J].医疗卫生装备,2019,40(5):90-95. 张孝强,王伟.智能可穿戴技术在军事医学领域的应用[J].医疗卫生装备,2019,40(5):90-95.
28、 SZCZERBIK E,KALINOWSKA M.The influence of knee marker placement error on evaluation of gait kinematic parameters[J].Acta Bioeng Biomech,2011,13(3):43-46. SZCZERBIK E,KALINOWSKA M.The influence of knee marker placement error on evaluation of gait kinematic parameters[J].Acta Bioeng Biomech,2011,13(3):43-46.
29、 MURO-DE-LA-HERRAN A,GARCIA-ZAPIRAIN B,MENDEZ-ZORRILLA A.Gait analysis methods:An overview of wearableand non-wearable systems,highlighting clinical applications[J].Sensors(Basel),2014,14(2):3362-3394. MURO-DE-LA-HERRAN A,GARCIA-ZAPIRAIN B,MENDEZ-ZORRILLA A.Gait analysis methods:An overview of wearableand non-wearable systems,highlighting clinical applications[J].Sensors(Basel),2014,14(2):3362-3394.
30、 SAGAWA J,ARMAND S,LUBBEKE A,et al.Associations between gait and clinical parameters in patients with severe knee osteoarthritis:A multiple correspondence analysis[J].Clin Biomech(Bristol,Avon),2013,28(3):299-305. SAGAWA J,ARMAND S,LUBBEKE A,et al.Associations between gait and clinical parameters in patients with severe knee osteoarthritis:A multiple correspondence analysis[J].Clin Biomech(Bristol,Avon),2013,28(3):299-305.
31、 KITAGAWA M,WINDSOR B.Mocap for artists:Workflow and techniques for motion capture[M].London,NewYork:Routledge,2012:1-232. KITAGAWA M,WINDSOR B.Mocap for artists:Workflow and techniques for motion capture[M].London,NewYork:Routledge,2012:1-232.
32、 叶思航. 基于三维动作捕捉的下肢骨折术后步态分析[D].上海:上海交通大学,2018:1-74. 叶思航. 基于三维动作捕捉的下肢骨折术后步态分析[D].上海:上海交通大学,2018:1-74.
33、 向泽锐,支锦亦,徐伯初,等.运动捕捉技术及其应用研究综述[J].计算机应用研究,2013,30(8):2241-2245. 向泽锐,支锦亦,徐伯初,等.运动捕捉技术及其应用研究综述[J].计算机应用研究,2013,30(8):2241-2245.
34、 黄波士,陈福民.人体运动捕捉及运动控制的研究[J].计算机工程与应用,2005,41(7):60-63. 黄波士,陈福民.人体运动捕捉及运动控制的研究[J].计算机工程与应用,2005,41(7):60-63.
35、 SUTHERLAND D H,HAGY J L.Measurement of gait movements from motion picture film[J].J Bone Joint Surg Am,1972,54(4):787-797. SUTHERLAND D H,HAGY J L.Measurement of gait movements from motion picture film[J].J Bone Joint Surg Am,1972,54(4):787-797.
36、 SUTHERLAND D H.Retention of contrast medium in the upper alimentary tract during oral cholecystography[J].Scott Med J,1964,9(9):394-398. SUTHERLAND D H.Retention of contrast medium in the upper alimentary tract during oral cholecystography[J].Scott Med J,1964,9(9):394-398.
37、 PERRY J.Clinical gait analyzer[J].Bull Prosthet Res,1974:188-192. PERRY J.Clinical gait analyzer[J].Bull Prosthet Res,1974:188-192.
38、 PERRY J.The mechanics of walking: A clinical interpretation[J].Phys Ther,1967,47(9):778-801. PERRY J.The mechanics of walking: A clinical interpretation[J].Phys Ther,1967,47(9):778-801.
39、 TARDIF H.Character animation in real time[C].Proc of Acm Siggraph,1991. TARDIF H.Character animation in real time[C].Proc of Acm Siggraph,1991.
40、 聂鑫苗,张新安,曹丽华.运动捕捉技术在体育运动领域的应用[J].体育科技,2021,42(4):52-56. 聂鑫苗,张新安,曹丽华.运动捕捉技术在体育运动领域的应用[J].体育科技,2021,42(4):52-56.
41、 WALTERS G.The story of waldo C.graphic[C] .Proc of Acm Siggraph,1989:65-79. WALTERS G.The story of waldo C.graphic[C] .Proc of Acm Siggraph,1989:65-79.
42、 ROBERTSON B.Mike,the talking head[J].Computer Graphics World,1988,11(7):15-17. ROBERTSON B.Mike,the talking head[J].Computer Graphics World,1988,11(7):15-17.
43、 CAROL M,GINSBER G,MAXWELL D.Graphical marionette[J].Proc of ACM SIGGRAPH,New York:ACM Press,1983:172-179. CAROL M,GINSBER G,MAXWELL D.Graphical marionette[J].Proc of ACM SIGGRAPH,New York:ACM Press,1983:172-179.
44、 CALVERT T W,CHAPMAN J,PATLA A.Aspects of the kinematic simulation of human movement[J].IEEE Comput Graph Appl,1982,2(9):41-50. CALVERT T W,CHAPMAN J,PATLA A.Aspects of the kinematic simulation of human movement[J].IEEE Comput Graph Appl,1982,2(9):41-50.
45、 JOHANSSON G.Visual perception of biological motion and a model for its analysis[J].Percept Psychophys,1973,14(2):201-211. JOHANSSON G.Visual perception of biological motion and a model for its analysis[J].Percept Psychophys,1973,14(2):201-211.
