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Associate Professor
Supervisor of Doctorate Candidates
Supervisor of Master's Candidates

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Date of Employment:2021-09-15

School/Department:School of Biological Science and Medical Engineering, Beihang University

Administrative Position:Associate Professor

Education Level:博士研究生

Business Address:Room No. 310, No. 5 Teaching Building, School of Biological Science and Medical Engineering, Beihang University No.37 XueYuan Road, HaiDian District, Beijing, 100083, China

Gender:Male

Contact Information:Email: yangxingbang@buaa.edu.cn

Degree:Doctoral Degree in Engineering

Status:Employed

Alma Mater:Beihang University

Discipline:Biomedical Engineering

Xingbang Yang

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Gender:Male

Education Level:博士研究生

Alma Mater:Beihang University

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Current position: Home / Personal Profile

招生信息:欢迎具有生医工程/机械工程/人工智能/机器人/自动控制/康复工程/生物力学等背景的国内外学子加入本研究团队一起从事研究工作。Recruitment information: Students with backgrounds such as biomedical engineering/mechanical engineering/artificial intelligence/robotics/automatic control/rehabilitation engineering/biomechanics, either from domestic or international, are welcome to join our research team.个人简介杨兴帮,北航生物与医学工程学院副教授。2010年在北京航空航天大学机械工程及自动化学院材料成型及控制工程专业获学士学位,2016年在北京航空航天大学机械工程及自动化学院机器人所获博士学位。2016年至2021年,先后在北京航空航天大学生物与医学工程学院和麻省理工学院媒体实验室仿生机械电子组从事博士后研究。研究方向主要为康复辅助机器人和仿生机器人。基于关节仿生研究,提出了一种具有较高步态识别性能、较好人机协调性、具备力矩仿生控制能力的踝关节外骨骼;基于冗余度设计原理,提出了高运动兼容性和助力安全性的老年人行走助力髋关节外骨骼;提出了仿生溅落入水实现水空两栖飞行器快速介质过渡的方法及水空跨介质变结构设计理论;揭示了飞行乌贼出水飞行的涡推进理论,提出了采用软体变结构技术实现两栖飞行器水空结构兼容性的设计方法。在Science杂志子刊Sci. Robot.(封面文章),航空航天领域Top期刊Prog. Aerosp. Sci.等期刊发表SCI检索论文20余篇,在ICRA,ROBIO等国际会议发表EI检索论文20余篇,获国家发明专利授权10余项。成果被Science,IEEE spectrum、MIT Technology Review等多家媒体报道。Science/AAAS multimedia对仿生鮣鱼研究论文的亮点和突出贡献进行了简述报到; IEEE Spectrum把我们的样机作为仿生设计的典型进行了详细报道,样机获“首都大学生挑战杯一等奖” ,被中国青年报等媒体报道。髋关节外骨骼样机获得北航“冯如杯”一等奖。踝关节外骨骼研究成果论文获FITEE最受欢迎论文Top10,受到科技产业服务平台深科技等媒体报道。主持了国家/北京市自然科学基金、博士后科学基金,参与了国家自然科学基金重点项目、美国NASA基金、NIH项目等;应邀担任过J. Royal Soc. Interface、J. Field Robot.等期刊审稿人;曾获北航优秀博士后、北航优秀博士毕业生、北航优秀学术论文奖、北航金质奖章等荣誉。Personal ProfileProactive researcher with 9 years of experience doing research in the fields of robotics and rehabilitation. My research interests include assistive robotics, lower limb prosthetics, biomechanics, bio-inspired robotics and soft robotics. Teaching “Introduction to Intelligent Rehabilitation Robotics” course currently. Taught “Modern Electromechanical Control” course as a teaching assistant. Supervised 6 BE theses. Co-supervised 3 BE theses, 1 MA thesis, and 3 PhD dissertations. Published over 40 articles in peer-reviewed journals and conferences. Patented over 10 inventions.教育经历:1. 2010.09-2016.01 北京航空航天大学,机械电子工程,工学博士2. 2015.01-2015.04 加州大学伯克利分校,交叉学科联合中心动物飞行原理研究实验室,访问学者3. 2006.09-2010.07 北京航空航天大学,材料成型及控制工程,工学学士EDUCATION1. 2010.09-2016.01 Beihang University, Beijing, China, Ph.D. in Mechatronic EngineeringRobotic Institute, School of Mechanical Engineering and Automation2. 2015.01-2015.04 University of California, Berkeley, USA, visiting scholar in Animal FlightAnimal Flight Laboratory, Department of Integrative Biology3. 2006.09-2010.07 Beihang University, Beijing, China, B.E. in Material Forming and Control EngineeringDepartment of Material Processing and control工作经历 1. 2021.09-今 北京航空航天大学 , 生物与医学工程学院 ,副教授2. 2017.08-2021.07 麻省理工学院,媒体实验室仿生机械电子组,博士后3. 2016.03-2017.07 北京航空航天大学, 生物医学工程学院 ,博士后PROFESSIONAL EXPERIENCE1. 2021.09-Present Associate Professor of Department of Health and Rehabilitation Technology, School of Biological Science and Medical Engineering, Beihang University2. 2017.08-2021.07 Postdoctoral Associate of Biomechatronics Group, MIT Media Lab, Massachusetts Institute of Technology, Cambridge, USA3. 2016.03-2017.08 Postdoctoral Associate of School of Biological Science and Medical Engineering, Beihang University, Beijing, China主要研究方向1. 康复辅助外骨骼2. 假肢接受腔数字化设计及性能评估3. 智能假肢设计及控制4. 仿生水空两栖跨介质飞行器5. 软体仿生机器人RESEARCH INTERESTS1. Robotic rehabilitation based on exoskeleton technology2. Prosthetic socket design based on digital model and performance evaluation3. Intelligent Prosthesis design and control4. Bio-inspired aquatic-aerial vehicle5. Soft bionic robot主持或参与的主要科研项目(RESEARCH EXPERIENCE)2025.1-2028.12 国自然面上项目“基于外骨骼的******防护方法研究”,主持2023.1-2026.12 北自然-海淀联合基金项目“基于骨/软组织愈合***康复治疗外骨骼及数字疗法研究”,主持2018.1-2020.12 国自然青年项目“飞行乌贼游动-滑翔水空多模式***及其仿生机器人研究”, 28万元,主持2018.2-2019.8 博后基金特别资助,“飞乌贼游动/滑翔/水-空喷射起飞***机理研究”, 15万元,主持2017.1-2019.8 博后基金, “鸬鹚蹼式推进水下游动-水面起飞助推***机理仿生试验研究”,5万元,主持2016.9-2020.9 国自然重点项目,“基于软体机器人的水下环境感知与目标抓取”,285万元,参与2015.1- 2018.12 国家自然科学基金面上项目,“鸬鹚蹼助水面短距起飞机理”,80万元,参与2018.8- 2021.7 美国国立卫生研究所“Computational Design, Fabrication, and Evaluation of Optimized Patient-Specific Transtibial Prosthetic Sockets”,100万美元,参与2017.8- 2018.8 美国国家航空航天局项目,“A Leg Exoskeleton Simulator for Sensing and Control Development”,120万美元,参与2015.1- 2017.12 国家自然科学基金青年项目,“䲟鱼仿生游动吸附机理与实验”,26万元,参与2011.1- 2013.12 国自然青年项目,“仿鲣鸟跨海空界面航行的变结构设计理论研究”, 20万元,参与2011.12- 2015.5 国家高技术研究发展计划(863计划,“极地科考机器人equipment”,430万元,参与2015.1-2015.5 美国Air Force科学研究局“流动交互和控制”项目,“Into turbulent air: hummingbird aerodynamic control in unsteady circumstances”,58万美元,参与主要社会兼职(RESEARCH AND ACADEMIC EMPLOYMENT)被邀请作为Journal of Royal Society Interface, Mechanism and Machine Theory, IEEE Transactions on Robotics, Journal of Field Robotics, Journal of Biomechanics等领域内20多个期刊或会议的审稿人。主要荣誉和奖励(AWARDS & HONORS)北京航空航天大学优秀博士后 (2018)北航“卓越百人博士后”人才计划(2016)北京航空航天大学2016年优秀学术论文奖(2016,2014)博士研究生国家奖学金(2013)北京航空航天大学优秀研究生(2012,2011) 北京市优秀本科毕业生(2010)北京航空航天大学金质奖章(2009)曾宪梓奖学金第三期优秀大学生资助奖励计划“优秀学生标兵”(2009)曾宪梓奖学金(2009,2008,2007)北京航空航天大学“学习优秀奖”一等奖(2009,2008)北京航空航天大学校级优秀生(2009,2008)北京航空航天大学“三好学生”(2008,2007)北京航空航天大学数学竞赛二等奖(2007)北京航空航天大学物理竞赛三等奖(2007)北京航空航天大学优秀新生奖学金 (2006)本科生辅导•担任211042班班主任,主要组织了窦店生医工程高精尖中心参观活动、读书分享活动等,对成绩不理想学生进行谈话、开展心理疏导、信息重建等工作,考前进行学生考前动员、心理疏导、帮助解决学生和生活中困难问题等工作;•担任5名学生的专属导师,组织学生开展线上电影、读书分享等活动,组织学生参观香山、中国电影博物馆、中国国家图书馆等,帮助学生解决生活和心理等方面的困惑和难题;•担任8名学生的科研导师,分别为每位同学确定了各自的微课题项目,从项目立项、项目实施到项目结题整个过程进行全方位指导,学生在科研思维建立、科研方案选择和实施、科研成果展示等方面得到了很好地训练;•担任14名冯如书院大一本科生学业导师,被评为“优秀导师”,帮助大家了解和适应大学生活,在各门课学习上给予经验指导,帮助学生们了解生医学院的学科特点和研究方向,每周一次线上、每月一次线下、每学期一次单独交流指导同学们进行选择的专业入门类/思维训练类/素质提高类书记的阅读、PPT制作、展示、冯如杯创意产生、方案设计、冯如杯论文撰写辅导等;•指导6名本科生的毕业设计工作,从学位论文开题、中期汇报、结题汇报等方面进行全方位指导,在论文工作完成过程中,在方案选择、方法确定、算法设计、实验验证等方面进行辅导;科技竞赛辅导•指导11个本科生科研项目在“大学生创新创业训练计划”立项,其中o《基于深度强化学习和人机耦合生物力学模型的智能康复机器人步态时空匹配控制方法》获国家级大创项目资助o《可穿戴绳驱动全自由度髋关节外骨骼》、《基于串联弹性驱动器(SEA)的主动式踝关节小腿假肢及运动代偿步态的柔顺控制研究》、《基于步态周期适应性动态调节地反力矩的经济舒适型智能踝足假肢》、《“飞垣”全地形运货机器人设计与制作》、《基于PD自适应算法的自锁式负荷转移外骨骼面向外科手术上肢肌肉疲劳的防治方案》、《基于sEMG及深度学习模型的踝关节助行外骨骼》、《基于磁体追踪技术的膝关节运动检测》获北京市级大创项目资助o《具备反向驱动能力的双主动自由度和第三被动自由度髋关节外骨骼机电一体化设计与实现》、《无偏差传动绳驱动膝关节外骨骼机器人》、《膝骨关节炎康复助行外骨骼生物力学优化设计》获北航校级大创项目资助•指导1个本科生项目获得中国国际大学生创新大赛(2024)北京赛区高教主赛道一等奖o《'步履未央',出行无恙——世界首创的耦合绳驱动髋关节助行外骨骼》获得中国国际大学生创新大赛(2024)北京赛区高教主赛道一等奖;•指导3个本科生项目在北航“冯如杯”竞赛主赛道中分别获得一等奖、二等奖、三等奖;o《可穿戴绳驱动全自由度髋关节外骨骼》获第三十三届“冯如杯”竞赛主赛道一等奖o《柔性驱动的智能小腿假肢》获第三十三届“冯如杯”竞赛主赛道二等奖o《“飞垣”项目名称:全地形物流机器人》获第三十四届“冯如杯”竞赛主赛道三等奖•指导4个本科生项目在北航“冯如杯”竞赛创意赛道中分别获得一等奖、二等奖、三等奖;o《基于负重转移的双自锁上肢助力外骨骼》获第三十四届“冯如杯”竞赛创意赛道一等奖o《下肢外骨骼自平衡控制方法研究--基于控制力矩陀螺》获第三十四届“冯如杯”竞赛创意赛道一等奖o《仿生多自由度智能髋关节假肢机构设计》获第三十四届“冯如杯”竞赛创意赛道二等奖o《瞬心自适应仿生膝关节》获第三十四届“冯如杯”竞赛创意赛道三等奖•指导2个本科生项目获得“全国大学生生物医学工程创新设计竞赛”二等奖o《基于串联弹性驱动器的变阻抗柔性驱动智能踝足假肢》获第八届“全国大学生生物医学工程创新设计竞赛”二等奖o《面向老年人下肢肌骨功能康复的绳驱动全自由度髋关节外骨骼》获第九届“全国大学生生物医学工程创新设计竞赛”二等奖•指导1个本科生项目获得第九届中国国际“互联网+”大学生创新创业大赛北京市赛二等奖o《“步履未央”,出行无恙-项目名称:世界首创的耦合绳驱动髋关节助行外骨骼》获得北京市赛二等奖;•指导1个本科生项目获得2023“临平杯”第三届全国机械工业设计创新大赛创意组铜奖o《可穿戴绳驱动全自由度髋关节助行外骨骼》获“临平杯”第三届全国机械工业设计创新大赛创意组铜奖•指导1个本科生项目获得“京彩大创”北京大学生创新创意大赛科技创新赛道三等奖o《“步履未央,出行无恙”--世界首创的耦合绳驱动髋关节助行外骨骼》获第三届“京彩大创”北京大学生创新创意大赛科技创新赛道三等奖专著(Monograph)Xingbang Yang, Xuan Pei. Hybrid system for powering unmanned aerial vehicles: Demonstration and study cases[M]//Hybrid Technologies for Power Generation. Academic Press, 2022: 439-473.近期代表性论文(Recent Selected Publications)期刊论文:Ruoqi Zhao§, Xingbang Yang§*, Yubo Fan*. Terrain-Aware Stride-Level Human Hip Joint Angle Forecasting via Vision and Kinematics Fusion[J]. IEEE Robotics and Automation Letters, 2024, 9(9), 7685-7690. Yuanlong Ji, Xuzhou Lang, Bo Wu, Yubo Fan, Quan Zheng, Xingbang Yang*. Conceptual Design and Preliminary Experiment of an Orthopedic Rehabilitation Exoskeleton Based on the Coupled Movable Pulley Mechanism (CMPM)[C]//2024 World Rehabilitation Robot Convention (WRRC). IEEE, 2024: 1-6.Xinyang Wang, Xuan Pei, Ruixiang Zhu, Taogang Hou*, Xingbang Yang*. Cavity-Membrane-Based Water-Jet Bio-Inspired Thruster With Multidirectional Accelerating Capability[J]. IEEE/ASME Transactions on Mechatronics, 2023.Xinyang Wang, Jiawei Zhao, Xuan Pei, Tianmiao Wang, Taogang Hou*, Xingbang Yang*. Bioinspiration review of Aquatic Unmanned Aerial Vehicle (AquaUAV)[J]. Biomimetic Intelligence and Robotics, 2024: 100154.Guocai Yao, Yanze Li, Hanyi Zhang, Yaotong Jiang, Tianmiao Wang, Fuchun Sun*, Xingbang Yang*. Review of hybrid aquatic-aerial vehicle (HAAV): Classifications, current status, applications, challenges and technology perspectives[J]. Progress in Aerospace Sciences, 2023, 139: 100902.Xingbang Yang*, Ruoqi Zhao, Dana Solav, Xuan Yang, Duncan R.C. Lee, Bjorn Sparrman, Yubo Fan, Hugh Herr*. Material, design, and fabrication of custom prosthetic liners for lower-extremity amputees: A review[J]. Medicine in Novel Technology and Devices, 2023, 17: 100197.Jinguo Huang, Yilun Sun, Tianmiao Wang, Tim C. Lueth, Jianhong Liang*, Xingbang Yang*. Fluid-Structure Interaction Hydrodynamics Analysis on a Deformed Bionic Flipper with Non-Uniformly Distributed Stiffness. IEEE Robotics and Automation Letters, 2020, 5(3), 4657-4662. Tianmiao Wang, Xuan Pei, Taogang Hou, Yubo Fan, Hugh Herr*, Xingbang Yang*. An untethered cable-driven ankle exoskeleton with plantarflexion-dorsiflexion bidirectional movement assistance. Frontiers of Information Technology & Electronic Engineering, 2020, 21(5):723-739. 受到科技产业服务平台DeepTech和MIT Technology Review中文版报道,并被今日头条、网易新闻等媒体转载。相关报道链接如下:https://mp.weixin.qq.com/s?__biz=MzA3NTIyODUzNA==&mid=2649612522&idx=1&sn=675f1bdc04bdcc0fcad2106b1ee00cc1&chksm=876af4f3b01d7de5384cbe3e29dac033268c3a0c0a6ea7b078dd15f02f92b86ce8e77e8333d1&scene=27Taogang Hou, Xingbang Yang*, Tianmiao Wang, Jianhong Liang, Shaowei Li, Yubo Fan. Locomotor transition: how squid jet from water to air. Bioinspiration and Biomimetics, 2020, 15(3), 036014.Yueping Wang§, Xingbang Yang§, Yufeng Chen§, Dylan K. Wainwright, Christopher P. Kenaley, Zheyuan Gong, Zemin Liu, Huan Liu, Juan Guan, Tianmiao Wang, James C. Weaver, Robert J. Wood*, and Li Wen*. A biorobotic adhesive disc for underwater hitchhiking inspired by the remora suckerfish [J]. Science Robotics, 2017, 2(10): 1-9. (共同一作,Science杂志子刊,封面文章)Click on the links below for media coverage of this research: Reported by Science with the title of “This robotic ‘remora’ can cling to objects with a force 340 times its own weight” in doi:10.1126/science.aaq0100 at http://www.sciencemag.org/news/2017/09/robotic-remora-can-cling-objects-force-340-times-its-own-weight Reported by Science with the title of “How the sucker comes to grip” in DOI: 10.1126/science.357.6357.1250-f at http://science.sciencemag.org/content/357/6357/1250.6?utm_campaign=twis_sci_2017-09-21&et_rid=263533777&et_cid=1558522 Reported by MIT Technology Review with the title of “Scientists Have Built a Shark-Sucking Robot That Is Hideous and Cool” at https://www.technologyreview.com/the-download/608916/scientists-have-built-a-shark-sucking-robot-that-is-hideous-and-cool/ Taogang Hou, Xingbang Yang*, Yasumichi Aiyama, Kaiqi Liu, Zeyu Wang, Tianmiao Wang, Jianhong Liang, Yubo Fan. Design and experiment of a universal two-fingered hand with soft fingertips based on jamming effect. Mechanism and Machine Theory, 2019, 133, 706-719. Xingbang Yang*, Tianmiao Wang, Jianhong Liang, Guocai Yao, Miao Liu. Survey on the novel hybrid aquatic-aerial amphibious aircraft: aquatic unmanned aerial vehicle (AquaUAV) [J]. Progress in Aerospace Sciences, 2015, 74, 131-151. Tianmiao Wang, Xingbang Yang*, Jianhong Liang, Guocai Yao, and Wendi Zhao; CFD based investigation on the impact acceleration when a gannet impacts with water during plunge-diving; Bioinspiration and Biomimetics, 2013, 8(3), 1-17.Jianhong Liang, Xingbang Yang*, Tianmiao Wang, Guocai Yao, and Wendi Zhao; Design and Experiment of a Bionic Gannet for Plunge-Diving; Journal of Bionic Engineering, 2013, 10(3), 282-291. 杨兴帮*, 梁建宏, 文力, 王田苗. 水空两栖跨介质无人飞行器研究现状[J]. 机器人, 2017, 40(1): 102-114. 王田苗, 杨兴帮*, 梁建宏; 中央鳍/对鳍推进模式的仿生自主水下机器人发展现状综述; 机器人, 2013, 35, (3-4), pp: 352-362,384. 会议论文:Jinguo Huang, Yilun Sun, Tianmiao Wang, Tim C. Lueth, Jianhong Liang*, Xingbang Yang*. Fluid-Structure Interaction Hydrodynamics Analysis on a Deformed Bionic Flipper with Non-Uniformly Distributed Stiffness. 2020 International Conference on Intelligent Robots and Systems (IROS), IEEE, 2020. Albert Wu§, Xingbang Yang§, Jiun-Yih Kuan, and Hugh M. Herr*. An Autonomous Exoskeleton for Ankle Plantarflexion Assistance; In: Proceedings of 2019 International Conference on Robotics and Automation (ICRA), IEEE, 2019: 1713-1719. (共同一作)Taogang Hou, Xingbang Yang*, Haohong Su, Buhui Jiang, Lingkun Chen, Tianmiao Wang, Jianhong Liang. Design and Experiments of a Squid-like Aquaticaerial Vehicle with Soft Morphing Fins and Arms; In: Proceedings of 2019 International Conference on Robotics and Automation (ICRA), IEEE, 2019: 4681-4687.Reported by IEEE SPECTRUM with the title of “Robot Squid and Robot Scallop Showcase Bio-inspired Underwater Propulsion” at https://spectrum.ieee.org/automaton/robotics/robotics-hardware/robot-squid-and-robot-scallop-showcase-bioinspired-underwater-propulsionTaogang Hou, Xingbang Yang*, Haohong Su, Lingkun Chen, Tianmiao Wang, Jianhong Liang, Zhang Siyang. Design, Fabrication and Morphing Mechanism of Soft Fins and Arms of a Squid-like Aquatic-aerial Vehicle with Morphology Tradeoff. IEEE International Conference on Robotics and Biomimetics (Robio 2019), IEEE, 2019: pp. 1020-1026. Xingbang Yang, Yueping Wang, Christopher P. Kenalky, Dylan K. Wainwright, Huan Liu, Juan Guan, Li Wen*. Contribution of Soft Tissue and Rigid Spinules to the Adhesive Ability of Remoras (Echeneis Naucrates) [C]. SICB2017, 2017, 57(S1), E184-E184. Yixue Dong, Jianhong Liang, Xingbang Yang*, Jinguo Huang, Xiaoqiang Xue, Yubo Fan. Modeling and simulation of cormorant’s webbed-feet assisted take-off from water surface; In: Proceedings of 2017 IEEE International Conference on Robotics and Biomimetics, IEEE, 2017: 1659-1664. Xingbang Yang*, Jianhong Liang, Tianmiao Wang, Guocai Yao, Wendi Zhao, Yucheng Zhang, Chenhao Han; Computational simulation of a submersible unmanned aerial vehicle impacting with water; In: Proceedings of 2013 IEEE International Conference on Robotics and Biomimetic, IEEE, 2013: 1138-1143.主要授权专利(Patents selected)杨兴帮, 侯涛刚, 裴轩, 杨轩; 一种踝关节运动辅助装置:中国, 专利号::ZL 201910624808.X, 申请日:2019-07-11,公开号:CN110559157B, 公开日:2019-12-13,授权日:2024-04-30. 杨兴帮, 侯涛刚, 王田苗, 梁建宏, 樊瑜波; 一种可实现软体变结构的仿生飞行乌贼跨海空航行器:中国, 专利号:ZL 2017 2 1171113. 3, 申请日:2017-09-13,公开号:CN207550465U, 公开日:2018-06-29,授权日:2018-06-29. 杨兴帮, 侯涛刚, 王田苗, 梁建宏, 樊瑜波; 全地形机器人: 中国, 专利号:ZL 2018 2 1000021. 3, 申请日:2018-06-27,公开号:CN208593448U, 公开日:2018-03-12,授权日:2019-03-12. 侯涛刚, 杨兴帮, 张佳楠, 王田苗, 樊瑜波; 一种全地形移动探测机器人: 中国, 专利号:ZL 2018 2 1000640. 2,申请日:2018-06-27,公开号:CN208774900U, 公开日:2018-04-23,授权日:2019-04-23.杨兴帮, 王田苗, 梁建宏, 吴海亮, 姚国才; 一种适用于跨海空两栖无人机的变机翼后掠角的气动式折叠装置:中国, 专利号:ZL 2013 1 0087234. X,申请日:2013-03-19,公开号:CN103224021A, 公开日:2013-07-31,授权日:2014-12-10. 梁建宏, 杨兴帮,王希, 令狐选霞, 吴海亮, 王田苗, 周亮, 方燏, 丁士洲; 一种适用于跨海空两栖无人机的空中推进装置:中国, 专利号:ZL 2013 1 0086531. 2,申请日:2013-03-19,公开号:CN103204237A, 公开日:2013-07-17,授权日:2015-02-18. 王田苗, 杨兴帮, 梁建宏, 吴海亮, 曾庆儒; 一种适用于跨海空两栖无人机的V型尾翼装置:中国, 专利号:ZL 2013 1 0086506. 4, 申请日:2013-03-19,公开号:CN103192984A, 公开日:2013-07-10,授权日:2015-01-21.吴海亮, 梁建宏, 杨兴帮, 田伟程, 王田苗, 王中俣; 一种仿海龟四鳍拍动式自主水下机器人:中国, 专利号:ZL 2013 1 0020130. 7, 申请日:2013-01-18, 公开号:CN103085955A, 公开日:2013-05-08, 授权日:2015-06-17. 联系方式地址:5号教学楼,北京市海淀区学院路37号,北京航空航天大学生物与医学工程学院邮编:100191电话&传真:电子邮件:yangxingbang@buaa.edu.cnContact Information:Address: No. 5 Teaching Building, School of Biological Science and Medical Engineering, Beihang UniversityNo.37 XueYuan Road, HaiDian District, Beijing, 100191, ChinaTel & Fax:Email: yangxingbang@buaa.edu.cn