王雪峰
近期热点
资料介绍
个人简历
个人简介致力于通过统计建模、系统分析、全息影像和精密加工等方法、技术,在智能手术、康复等医疗领域和远程控制、感知延申等人机交互领域,建立系统化的研究理论及开发大众化的实际应用;并在古生物力学建模、动物运动力学模型等方面有涉猎;同时也对社会学、心理学等复杂系统的建模与分析感兴趣。 教育经历2013-2017, 博士:马里兰大学巴尔的摩郡分校 (UMBC) 专业:机械工程2011-2013, 硕士:马里兰大学巴尔的摩郡分校 (UMBC) 专业:机械工程2007-2011, 学士:上海交通大学 专业:机械工程 主要科研工作经历:2020-至今, 北京大学工学院先进制造与机器人系- 研究员2018-2020, 美国阿拉巴马大学,机械工程系,助理教授2017-2018, 美国佐治亚理工学院,Jaydev Desai实验室,博士后 主要荣誉·Best Symposium Paper Award at ISMR 2019 (April 2019, Atlanta, GA, USA).·Dissertation Fellowship award for the Fall semester, 2016, University of Maryland, Baltimore County·1st Place award in ASME IDETC 2016 Technical Committee on Vibration and Sound (TCVS) Student Paper Competition (Aug. 2016, Charlotte, NC, USA) 专利申请1. Amand Koh and Xuefeng Wang, SOFT ROBOTIC TOOLS WITH SEQUENTIALLY UNDERACTUATED MAGNETORHEOLOGICAL FLUIDIC JOINTS, Application No. 62902446.2. Jaydev P. Desai and Xuefeng Wang, System, Method, and Apparatus for Voice-Activated, Compact and Portable Robotic Rehabilitation and Assistive System, Application No. 62/550,849.3. Weidong Zhu and Xuefeng Wang, Geared Infinitely Variable Transmission, Patent No. 14071989.4. Weidong Zhu, Navid Goudarzi and Xuefeng Wang, Active Control System for a Variable Electromotive-force Generator with Applications to Wind Turbines, Ships, and Hybrid Vehicles, Patent No. 9991771.研究领域
主要研究方向:微创手术机器人设计、人机交互及远程控制;基于全息影像的机器人医疗与康复;一般非线性动力学系统稳态分析与控制。近期论文
主要期刊论文列表1. Wang Xuefeng, Zhu Weidong, Liu Mao; Steady-state Periodic Solutions of the Nonlinear Wave Propagation Problem of a One-dimensional Lattice using a New Incremental Harmonic Balance Method that Handles Time Delays; Nonlinear Dynamics; 2020, 1-112. Wang Xuefeng, Zhu Weidong; A Spatial and Temporal Harmonic Balance Method for Obtaining Periodic Solutions of a Nonlinear Partial Differential Equation with a Linear Complex Boundary Condition; Journal of Vibration and Acoustics; 2020, 142(3)3. Wang Xuefeng, Zhu Weidong, Zhao Xi; An Incremental Harmonic Balance Method with a General Jacobian Matrix and a Direct Construction Method in Stability Analysis of Nonlinear Delay Differential Equations; Journal of Applied Mechanics; 2019, 86(6): 0610114. Desai Jaydev, Sheng Jun, Cheng Shing Shin, Wang Xuefeng, Deaton Nancy, Rahman Nahian; Towards Patient-Specific 3D-Printed Robotic Systems for Surgical Interventions; Institute of Electrical and Electronics Engineers Transactions on Medical Robotics and Bionics; 2019, 1(2): 77-875. Wang Xuefeng, Cheng Shing Shin, Desai Jaydev; Design, Analysis and Evaluation of a Remotely-Actuated MRI-Compatible Neurosurgical Robotic System; Institute of Electrical and Electronics Engineers Robotics and Automation Letters; 2018, 3(3): 2144-21516. Wang Xuefeng, Zhu Weidong; Design and Stability Analysis of an Integral Time-Delay Feedback Control Combined With an Open-Loop Control for an Infinitely Variable Transmission System; Journal of Dynamic Systems, Measurement, and Control; 2018, 140(1): 0110077. Sheng Jun, Wang Xuefeng, Dickfeld Timm-Michael, Desai Jaydev; Towards the development of a steerable and MRI-compatible cardiac catheter for atrial fibrillation treatment; Institute of Electrical and Electronics Engineers Robotics and Automation Letters; 2018, 3(4), 4038 - 4045 8. Wang Xuefeng, Zhu Weidong; A New Spatial and Temporal Incremental Harmonic Balance Method for Obtaining Periodic Steady-State Responses of a One-Dimensional Second-Order Continuous System; Journal of Applied Mechanics; 2017, 84(1): 0145019. Wang Xuefeng, Zhu Weidong; Dynamic Analysis of an Automotive Belt-Drive System with a Noncircular Sprocket by a Modified Incremental Harmonic Balance Method; Journal of Vibration and Acoustics; 2017, 139(1): 01100910. Wang Xuefeng, Li Zhuoran, Zhu Weidong Zhu; Dynamic Analysis of a Geared Infinitely Variable Transmission; Journal of Computational and Nonlinear Dynamics; 2017, 12(3): 03450211. Wang Xuefeng, Zhu Weidong; Modeling and Experimental Validation of a Novel Infinitely Variable Transmission Based on Scotch Yoke Systems; Journal of Mechanical Design; 2016, 138(1): 015001 12. Wang Xuefeng, Zhu Weidong; A modified Incremental Harmonic Balance Method Based on the Fast Fourier Transform and Broyden’s Method; Nonlinear Dynamics; 2015, 81(1-2): 981-98913. Wang Xuefeng, Zhu Weidong; Design, Modeling, and Simulation of a Geared Infinitely Variable Transmission; Journal of Mechanical Design; 2014, 136(7): 071011 相关热点