潘俊君 - 北京航空航天大学

个人简介

潘俊君，博士，副教授，博士生导师。本科、硕士毕业于西北工业大学计算机学院。2006年9月获得英国海外留学生全额奖学金，进入英国伯恩茅斯大学，英国国家计算机动画中心（NCCA）攻读博士学位，2010年博士毕业后在该中心从事博士后研究。2012年在美国伦斯勒理工大学的医学模拟、仿真与成像中心担任Research Associate。2013年11月，通过北航“卓越百人计划”引进，成为北京航空航天大学计算机学院副教授。目前学会任职: 吴阶平医学基金会模拟医学部虚拟技术专委会副主任委员，中国虚拟现实产业联盟虚拟医疗专委会秘书长，中国仿真学会医疗仿真专委会秘书长，中华医学会数字医学分会青年委员等。主要研究方向包括：虚拟手术，计算机动画，医学可视化等。在IEEE Transactions on Medical Imaging， IEEE VR等国内外顶级及知名期刊、学术会议上发表五十余篇学术论文，并担任多部国际期刊的评审人。授权专利8项（含美国专利2项），软件著作权3项，成果技术转化1项，是北航“青年拔尖人才”、英国皇家学会牛顿基金获得者。目前已承担包括3项国家自然科学基金，1项人社部优秀归国人员创新项目在内的10余项课题。另外，作为项目骨干参与了国家自然科学基金重大项目1项，国家重点研发计划2项，并与“字节跳动”、“百度”等知名公司建立了横向合作。在英国研究期间，研发了世界首台直肠癌腹腔镜手术的虚拟训练系统，其成果获得BBC及知名医学杂志的采访与报道。2008年获得“伯恩茅斯大学学者”荣誉头衔。在美国研究期间，作为软件组负责人，与哈佛大学医学院合作参与了美国国家卫生研究院（NIH）资助的世界首台通过人体自然腔道的虚拟内窥镜手术系统的研发。回国后带领团队研发了具有我国自主知识产权的“虚拟腹腔镜手术综合训练系统（UniLapsim）”，已实现产业化并在7家单位展开应用。其成果在国内外产生了重要的学术与社会影响力，受到央视新闻联播、经济频道、新华网、中国青年报、中国电子报等多家媒体进行采访报道。2019年10月，获得英国伯恩茅斯大学颁发的国际科研及交流奖（Global Visiting Fellowship Award，2.1万英镑）。目前，承担了硕士课程《虚拟现实技术》及本科生暑期学校课程《Computer Animation Algorithms and Techniques》的教学任务。教育经历 2006.9 -- 2010.4 伯恩茅斯大学英国国家计算机动画中心博士研究生毕业博士学位英国 2003.9 -- 2006.6 西北工业大学计算机科学与技术研究生班毕业硕士学位 1999.9 -- 2003.6 西北工业大学计算机学院大学本科毕业学士学位工作经历 2012.7 -- 2013.7 伦斯勒理工（美国）医学模拟仿真与成像中心 Research Associate 2010.8 -- 2012.7 伯恩茅斯大学（英国）英国国家计算机动画中心 Postdoctoral Research Fellow 合作导师：张建军

研究领域

虚拟手术，计算机动画，医学可视化等

近期论文

查看导师新发文章（温馨提示：请注意重名现象，建议点开原文通过作者单位确认）

代表性论著 Pan J(*), Yan S, Qin H, Hao A. Real-time dissection of organs via hybrid coupling of geometric metaballs and physics-centric mesh-free method. The Visual Computer, 2018, 34(1): 105-116. Bai, J., Pan J(*), Yang, Y., Qin, H.. Novel metaballs-driven approach with dynamic constraints for character articulation. SCIENCE CHINA Information Sciences, online, 2018. Xiangfei Meng; Junjun Pan(*); Hong Qin; Pu Ge. Real-time Fish Animation Generation by Monocular Camera, Computers and Graphics, 2018.3, 71: 55~65. Sui Y, Pan J(*), Qin H, Liu H, Lu Y. Real-time simulation of soft tissue deformation and electrocautery procedures in laparoscopic rectal cancer radical surgery. International Journal of Medical Robotics and Computer Assisted Surgery, 2017, 13(4): e1827. Pan, J(*).; Chen, L.; Yang, Y.; Qin, H.. Automatic Skinning and Weight Retargeting of Articulated Characters using Extended Position-based Dynamics, T he Visual Computer, online, 2017. Ming Zhu; Fei Liu; Gang Chai(*); Jun J. Pan; Taoran Jiang; Li Lin; Yan Zhang, A novel augmented reality system for displaying inferior alveolar nerve bundles in maxillofacial surgery. SCIENTIFIC REPORTS, 2017.2.15, 7(42365). Jun J. Pan(*); Woojin Ahn; Saurabh Dargar; Tansel Halic; Bai C Li; Ganesh Sankaranarayanan; Kurt Roberts; Steven Schwaitzbererg; Suvranu De, Graphic and haptic simulation for transvaginal cholecystectomy training in NOTES, Journal of Biomedical Informatics, 2016.4.25, 6(14): 410~421. Pan J(*), Chang J, Yang X, Liang H, Zhang J, Qureshi T, Howell R. Hickish T. Virtual reality training and assessment in laparoscopic rectum surgery, International Journal of Medical Robotics and Computer Assisted Surgery, 2015, 11(2): 194-209. Pan J(*), Bai J, Zhao X, Hao A, Qin H. Real-time haptic manipulation and cutting of hybrid soft tissue models by extended position-based dynamics. Computer Animation and Virtual Worlds, 2015, 6：321–335. Qian K, Bai J, Yang X, Pan J(*), Zhang J. Essential techniques for laparoscopic surgery simulation. Computer Animation and Virtual Worlds, 2015, 28(2): e1724. Pan J(*), Zhao C, Zhao X, Hao A, Qin H(*). Metaballs-based physical modeling and deformation of organs for virtual surgery. Visual Computer, 2015, 31(6): 947-957. Chai, Gang; Tan, Andy; Yao, Caroline A.; Magee, William P., III; Pan Junjun; Zhu, Ming; Bogari, Melia; Hsu, Yulung; Xu, Haisong; Zhang, Yan(*) Treating Parry-Romberg Syndrome Using Three-Dimensional Scanning and Printing and the Anterolateral Thigh Dermal Adipofascial Flap, Journal of Craniofacial Surgery, 2015.9, 26(6): 1826~1829. Pan J(*), Zhang J. Theoretical design of vascular imaging based on Hall Effect. International Journal of Imaging Systems and Technology. 23: 85-96, 2013. Pan J(*), Yang X, Chang J, Qureshi T, Howell R, Hickish T, Zhang J. Graphic and haptic simulation system for virtual laparoscopic rectum surgery. International Journal of Medical Robotics and Computer Assisted Surgery, 7:304-317, 2011 Pan J(*), Zhang J. Sketch-based skeleton-driven 2D animation and motion capture. Transactions on Edutainment (VI), Springer, 164-181, 2011. Pan J, Yang X, Xie X, Willis P, Zhang J(*). Automatic rigging for animation characters with 3D silhouette. Computer Animation and Virtual Worlds, 2009, 20 (2-3): 121-131. 期刊论文潘俊君(*), 白隽瑄, 张艳宁, 龙丽华, 周洪, 基于三维激光扫描技术的颌面三维测量与直接测量法的比较, 组织工程与重建外科, 2014, 1:14-18. 白隽瑄, 潘俊君(*), 赵鑫, 郝爱民, 基于四面体网格的软组织位置动力学切割仿真算法, 北京航空航天大学学报, 2015, 41(7): 1343-1352. Ahn W, Dargar S, Halic T, Lee J, Li B, Pan J, Sankaranarayanan G, Roberts K, De S (*). Development of a virtual reality simulator for natural orifice translumenal endoscopic surgery (NOTES) cholecystectomy procedure. Studies in Health Technology and Informatics, 2014, 196:1-5. Chang J, Yang X, Pan J, Li W, Zhang J (*). A fast hybrid computation model for rectum deformation. Visual Computer, 2010, 27: 97- 107. 会议论文 XiangF Meng, JunJ. Pan(*), Hong Qin. Motion Capture and Retargeting of Fish by Monocular Camera，CYBERWORLDS 2017, 20th - 22nd September，UK, Chester. Pan, J. (*); Yan, S; Qin, H, Interactive Dissection of Digital Organs based on Metaballs. Computer Graphics International Conference 2016 (CGI 2016), 2016.6.27-2016.7.2. Qian K, Bai J, Yang X, Pan J(*), Zhang J. Virtual reality based laparoscopic surgery simulation, VRST Proceedings of the 21th ACM Symposium on Virtual Reality Software and Technology November 13, 2015. Pan, J. (*); Zhao, C.; Zhao, X.; Hao, A.; Qin, H. Metaballs-based physical modeling and deformation of organs for virtual surgery. Computer Graphics International 2015 (CGI2015), 2015.6.29-2015.7.1. Junjun Pan, Junxuan Bai, Xin Zhao, Aimin Hao and Hong Qin, Real-time haptic manipulation and cutting of hybrid soft tissue models by extended PBD, The 28th International Conference on Computer Animation and Social Agents (CASA 2015), Singapore, May 2015. Pan J(*), Bai J, Zhao X, Hao A, Qin H. Dissection of hybrid soft tissue models using position-based dynamics, VRST Proceedings of the 20th ACM Symposium on Virtual Reality Software and Technology November 13, 2014. Wang M, Chang J, Pan J, Zhang, J. Image-based bas-relief generation with gradient operation. In: The Eleventh IASTED International Conference on Computer Graphics and Imaging, 17-19 February 2010, Innsbruck, Austria.