发表论文及专利
(1) Mei Feng*, Haijun Zhang, Xiaoqin Zhou, et al. A Self-locking One-handed Operation of Minimally Invasive Surgical Instruments. Journal of Beijing Institute of Technology. 2019.
(2) Xiaoqin Zhou, Haijun Zhang, Mei Feng*, et al. New Remote Centre of Motion Mechanism for Robot-assisted Minimally Invasive Surgery. Biomedical Engineering Online, 2019 (SCI)
(3) Qiuwei He, Ji Zhao, Mei Feng*, et al. A study on the control strategies of a series–parallel hybrid platform for blade polishing. The International Journal of Advanced Manufacturing Technology.2019
(4) 曲兴田, 郝良天, 冯美*, 等.机器人辅助微创外科用柔性手术器械运动学研究. 机器人,2019。(EI)
(5) Shijun Ji, Jianfeng Li, Ji Zhao, Mei Feng * ,et al. Ultra-Precision Machining of a Compound Sinusoidal Grid Surface Based on Slow Tool Servo.Manufacturing Processes and Systems, 2018. (SCI)
(6) Jin X, Zhao J, Feng M*, et al. Snake-like surgical forceps for robot-assisted minimally invasive surgery.[J]. International Journal of Medical Robotics and Computer Assisted Surgery Mrcas, 2018:e1908. (SCI).
(7) Haijun Zhang, Mei Feng*, Chang Wang, et al. A minimally invasive surgical instrument of hand-held with self-locking. International Conference on Biological Information and Biomedical. 2018.
(8) Mei Feng*, Xingze Jin, Xiaoyu Guo, Ji Zhao. Pose optimization and port placement for robot-assisted minimally invasive surgery in cholecystectomy[J]. Int J Med Robot, 2017, 13(4):e1810. (SCI)
(9) Xingze Jin, Mei Feng*, Ji Zhao, et al. Design a flexible surgical instrument for robot-assisted minimally invasive surgery. IEEE International Conference on Robotics and Biomimetics. 2016: 264-10.1109.(EI)
(10) Qiuwei HE, Chaopeng ZHANG, Mei FENG*, et al. Singular Configuration Analysis for the Structure of Hybrid Grinding and Polishing Machine. 2016 International Conference on Computer Science and Mechanical Automation. (EI)
(11) Mei Feng*, Yili Fu, Bo Pan, et al. Development of a medical robot system for minimally invasive surgery. The International Journal of Medical Robotics and Computer Assisted Surgery,2012. (SCI)
(12) Mei Feng*, Bo P, et al. An improved surgical instrument without coupled motions that can be used in robotic-assisted minimally invasive surgery.[J]. Proc Inst Mech Eng H, 2012, 226(8):623-630..(SCI)
(13) 付宜利,冯美*,潘博,等. 基于钢丝传动的腹腔微创手术机器人手术器械 的设计和实现. 高技术通讯,2011. (EI)
(14) 冯美*, 付宜利, 潘博, 等. 腹腔微创手术末端执行机构的设计和实现. 机器人. 2009, 31(1): 47-52 (EI)
(15) Mei Feng*, Yili Fu, Bo Pan, et al. Design and implementation of a medical robotfor celiac minimally invasive surgery. In Proceedings of the IEEE International Conference on Robotics and Biomimetics. Tianjin, China, 2010, 47-52 (EI)
(16) 潘博,付宜利,冯美,等. 腹腔微创手术机器人主从控制技术与实验.机器人, 2012,34(6):646-651.(EI 检索号:20130215895207)
(17) Mei Feng*, Yili Fu, Bo Pan, et al. A medical robot system for celiac minimally invasive surgery. In Proceedings of the IEEE International Conference on Information and Automation. Shenzhen, China, 2011, 33-38 (EI)
(18) 冯美,金星泽,张祚华,等。一种用于机器人辅助微创手术装置的钢丝快换机构(授权号:201620490070.4)
(19) 冯美,李秋萌,徐建业,等。一种切割操作下生物软组织力学性能测试装置。(授权号:201721154344.3)
(20) 付宜利, 冯美, 潘博, 等. 腹腔微创外科手术用器械夹持机械手. 授权号 200910073024,发明专利.
(21) 王树国, 冯美, 曹校明, 等. 腹腔微创手术机器人用夹钳式手术器械. 授权号 201110007611. 发明专利
(22) 冯美,董光友,付宜利,赵继. 一种辅助微创手术夹持内窥镜的末端执行器(授权号201510829243.0) 发明专利。
(23) 冯美,金星泽,董光友,赵继. 一种机器人辅助微创手术用柔性多关节手术微器械 (授权号201510872335.7) 发明专利。
(24) 冯美,金星泽,赵继,卢秀泉.机器人辅助微创手术用无耦合快换式手术装置(授权号:201310323137.6),发明专利。
(25) 金星泽,冯美,赵继,卢秀泉.机器人辅助微创手术用无耦合快换式钛夹钳手术装置(授权号:201410172234.4),发明专利。
(26) 冯美,李彦超,董光友,王之宇,等.一种生物软组织力学性能测试装置.(授权号:201610117830.1)发明专利。
(27) 冯美,张海军,莫玄,等。一种用于辅助胸腹腔微创手术的机器人。(专利号2017106116081)。发明专利。
(28) 冯美,王吉钊,吴允坚,等。一种微创手术机器人七自由度操作主手。(授权号:201710088360.5)。发明专利。
(29) 佟伟华,冯美,张海军. 一种具有快速更换功能的微创手术器械末端执行器. 专利号:201721705566.X,
(30) 冯美,张海军,李秋萌,等.一种具有自锁性的手持式微创手术器械.(专利号:201710962057.3)。发明专利.
(31) 冯美,张海军,金星泽,等. 一种具有自锁与快速更换功能的手控式柔性微创手术器械。(专利号:201810084985.9)。发明专利。