1997-2000同济大学 固体力学专业博士
1994-1997天津大学 实验力学专业硕士
1990-1994沈阳理工大学 机械制造专业学士

2000.10-2002.12：上海交大机械工程博士后流动站   博士后        假体工程、生物力学研究方向
2003.01-至今   ：上海交大美加墨世界杯     副教授        医学工程、生物力学研究方向
2007.07-2007.08：英国Salford大学人类康复与体能科学研究中心    学术交流
2008.07-2008.09：美国UCSD                                     双语教学培训及学术交流
2013.03-2013.06：英国Salford大学人类康复与体能科学研究中心    学术交流

研究方向：人体骨肌系统生物力学

研究专长： 

●人体骨骼肌肉系统之生物力学

●假体设计与生物力学评估

●应力矫形数值仿真及基于3D打印技术的矫形支具设计

●人体运动康复生物力学与康复评价平台建立

●实验力学测试技术与人体组织器官力学行为特性研究

1.《医用生物力学》杂志第六届-第九届编辑委员会委员

2.中华医学会数字医学分会第二届青委会委员

3.上海力学学会高级会员。

4.中国生物医学工程学会高级会员

5.人因工程国防科技重点实验室第二届学术委员会委员。

现承担的主要科研项目：
1. 2022.07.01～2025.06.30：国家重点研发计划课题—老年足部辅具的生物力学设计优化及制造系统研发，主持。
2. 2019.12.01～2023.11.30: 国家重点研发计划课题—脊髓损伤个性化康复行为分析与设计，参加。
3. 2019.06.01～2024.12.31: 军队后勤开放研究科研项目—航天员过载冲击伤应急医疗救护研究. 参加。
4. 2020.01.01～2012.12.31：美加墨世界杯医工交叉基金—改良骨盆微创内支架系统的设计验证及生物力学优化，合作方负责人；
5. 2019.10.16～2022.10.15：合作开发项目—魏氏伤科手法及导引训练治疗效应的生物力学机理研究，项目负责人。

[1]     Zhengtao Wang, Yuantao Ding, Baiqing Luo, Bin Xue, Jinlin Zhang, Ping Huang, Dongmei Wang, and Suiran Yu. Plug-and-Play IMU-Based Gait Measurement: Toward 3-D Foot Angle Estimation for KOA Patients. IEEE Sensors Journal, 2025; 25(4): 7345-7354.

[2]     B. Luo, Z. Wang, D. Wang, L. Chen and X. Ma. Algorithm for Gait Parameters Estimation Based on Heel-Mounted Inertial Sensors. IEEE Sensors Journal, 2024; 24(15): 24723-24736.

[3]     Zhengtao Wang, Fei Gao, Zihao Wu, Dongmei Wang, Xin Guo, Suiran Yu. A Method for Calculating Lower Extremity Anatomical Landmark Trajectories Based on Inertial Motion Capture Data. IEEE Trans Neural Syst Rehabil Eng, 2023;31:2734-2746.

[4]     Xiaoyu Ma, Dongmei Wang, Wenjiong Li, Xiaoqian Dai, Shujuan Liu, Zhili Li. Estimation of the Skeletal Muscle Cross‑Sectional Area of the Lower Extremity Using Structured Light Three‑Dimensional Scanning Technology. Journal of Medical and Biological Engineering, 2023;43:446–453.

[5]     Wei Wang, Dongmei Wang, Guanglin Li. Towards improving the accuracy of musculoskeletal simulation of dynamic spinal motions with optimizing model and algorithm. Medical Engineering and Physics, 2022;110:1039.

[6]     Wei Wang, Dongmei Wang, Antonine Falisse, et al.. A Dynamic Optimization Approach for Solving Spine Kinematics While Calibrating Subject-Specific Mechanical Properties. Annals of Biomedical Engineering, 2021, 49(9):2311-2322.

[7]     Gang Tang, Jinqin Sheng, Dongmei Wang, et al.. Continuous Estimation of Human Upper Limb Joint Angles by Using PSO-LSTM Model. IEEE Access,2021, 9: 17986 - 17997.

[8]     S.J. Ran, X. Yang, Z. Sun, Y. Zhang, J.X. Chen, D.M. Wang, B. Liu. Effect of length of apical root resection on the biomechanical response of a maxillary centralincisor in various occlusal relationships. International Endodontic Journal, 2020, 53:111–121.

[9]     Sun Yuewan, Wang Dongmei*, Wang Wei, Sun Jingchuan, Liu Anmin, Shi Jiangang. Sensitivity analysis of biomechanical effect in vertebral body of two different augmenters. Clinical Biomechanics,2020, 80: 105166.

[10]  DongmeiWang, WeiWang, Qinyang Guo, Guanglin Shi, Genrui Zhu, XuWang and Anmin Liu. Design and validation of a foot–ankle dynamic simulator with a 6-degree-offreedom parallel mechanism. Proc IMechE Part H: J Engineering in Medicine, 2020, 234(10) : 1070–1082.

[11]  Sun Yuewan, Wang Dongmei*, Sun Jingchuan, Liu Anmin and Shi Jiangang. A comparative analysis of the effects of  two augmenters on the sensitive of vertebral biomechanical behavior in vertebroplasty. Journal of Mechanics in Medicine and Biology, Vol. 20, No. 4 (2020) 2050007

[12]  Wei Wang, Dongmei Wang*, Friedl De Groote, Lennart Scheys, Ilse Jonkers. Implementation of physiological functional spinal units in a rigid-body model of the thoracolumbar spine. Journal of Biomechanics, 2020,98:1-10.

[13]  Qinyang Guo, Guanglin Shi and Dongmei Wang. Adaptive Composite Fuzzy Dynamic Surface Control for Electro‐Hydraulic‐System, with Variable‐Supply‐Pressure[J]. Asian Journal of Control, 2019, 21(6):1-15.

[14]  Wei Wang, Dongmei Wang*, Mariska Wesseling, Bin Xue and Feiyue Li. Comparison of modelling and tracking methods for analysing elbow and forearm kinematics. Proc IMechE Part H: J Engineering in Medicine, 2019; 233(11): 1113–1121.

[15]  Qinyang Guo, Guanglin Shi, Dongmei Wang, et al. Iterative learning based output feedback control for electro-hydraulic loading system of a gait simulator. Mechatronics 54 (2018) 110–120.

[16]  Wei Wang, Dongmei Wang*, Chenghui Lai. The three-dimensional movement correlations between elbow and wrist joint and anthropometric determinants. Journal of Mechanics in Medicine and Biology Vol. 18, No. 2 (2018) 1850013 (13 pages).

[17]  Qinyang Guo, Guanglin Shi, Changyu He and Dongmei Wang. Composite adaptive force tracking control for electro-hydraulic system without persistent excitation condition[J]. Proceedings of the Institution of Mechanical Engineers, Part I: Journal of Systems and Control Engineering, 2018; 232 ( 9): 1230-1244.

[18]  Aili Qu, Dongmei Wang*, Xiangsen Zeng, et al.. Dynamic response and material sensitivity analysis of pelvic complex numerical model under side impact. Bio-Medical Materials and Engineering 29 (2018) 499–512.

[19]  Mohsen Hatami, Dongmei Wang *, Aili Qu, et al. Dynamic Simulation of Biomechanical Behaviour of the Pelvis in the Lateral Impact Loads. Journal of Healthcare Engineering , Volume 2018, Article ID 3083278, 11 pages.

[20]  WT Yang，DM Wang*，J Hu. The Influence of Bone Modulus-density Relationships on Twodimensional Human Proximal Femur Remodeling Results. Journal of Medical & Biological Engineering , J. Med. Biol. Eng. (2018) 38:350–358.

1.   苗玉彬; 谢舒心; 全天睿; 王冬梅; 糖尿病足主动干预治疗与监控系统, 2025R11L1770902, 原始取得, 全部权利, 2025-08-26 (软件著作权)

2.   罗柏清; 王正陶; 王冬梅; 足部运动能力测量与步态功能评估系统, 2025SR0690491, 原始取得, 全部权利, 2025-04-27 (软件著作权)

3.   林艳萍; 纪冕; 王冬梅; 足部测量与个性化辅具设计系统, 2024SR0457624, 原始取得, 全部权利,2024-01-22 (软件著作权)

4.   王正陶; 于随然; 王冬梅; 脊髓损伤运动能力测量评估软件, 2024SR0043356, 原始取得, 全部权利,2023-11-09 (软件著作权)

5.   施光林; 郭秦阳; 王冬梅 ; 六自由度步态模拟的测试装置, 2016-8-31, 中国,ZL201410664779.7 (专利)

6.   王冬梅; 徐翔燕; 雷周激欣; 姜雨辰 ; 一种可调姿态和加载的足踝固定装置, 2014-4-4, 中国,ZL201410135854.0 (专利)