代表性论著

1.        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.

2.        Bai, J., Pan J^(*), Yang, Y., Qin, H.. Novel metaballs-driven approach with dynamic constraints for character articulation. SCIENCE CHINA Information Sciences, online, 2018.

3.        Xiangfei Meng; Junjun Pan^(*); Hong Qin; Pu Ge. Real-time Fish Animation Generation by Monocular Camera, Computers and Graphics, 2018.3, 71: 55~65.

4.        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.

5.        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.

6.        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).

7.        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.

8.        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.

9.        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.

10.    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.

11.    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.

12.    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.

13.    Pan J^(*), Zhang J. Theoretical design of vascular imaging based on Hall Effect. International Journal of Imaging Systems and Technology. 23: 85-96, 2013.

14.    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

15.    Pan J(*), Zhang J. Sketch-based skeleton-driven 2D animation and motion capture. Transactions on Edutainment (VI), Springer, 164-181, 2011.

16.    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

1. 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.

2. 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.

3.  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.

4.  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

1.      XiangF Meng, JunJ. Pan(*), Hong Qin. Motion Capture and Retargeting of Fish by Monocular Camera，CYBERWORLDS 2017, 20th - 22nd September，UK, Chester.

2.      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.

3.      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.

4.      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.

5.      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.

6.      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.

7.      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.

专著

Pan J, Zhang J, Zhang Y, Zhou H. X-ray-based craniofacial visualization and surgery simulation. Recent Advances in the 3D Physiological Human (Chapter 13). Eds.: Magnenat-Thalmann N, Zhang J, Feng D. Springer-Verlag, New York. ISBN: 1848825641, August 2009, pp.208-224.

授权发明专利

(1)  潘俊君，白隽瑄，赵鑫，郝爱民，基于位置动力学的软组织变形和切割模拟方法，2017.05.03，中国，ZL201410493777.6

(2)  潘俊君，赵沁平，王莉莉，郝爱民，李帅，一种带有力反馈的虚拟腹腔镜手术模拟器及其制作方法，2016.08.17，中国，ZL201410109392.5

(3)  张融，刘丹，潘俊君，腹腔镜模拟器，2016.03.02，中国，ZL201530423350.4

(4)  张忍，王莉莉，郝爱民，潘俊君，一种人体心脏的实时逼真绘制方法，2015.05.06，中国，ZL201410768217.7

受理的发明专利

(5) 赵鑫; 潘俊君; 郝爱民; 秦洪, 一种基于元球模型的软组织形变算法, 2015.11.06, 中国, CN201510746746.1

(6) 潘俊君; 赵成凯; 郝爱民; 秦洪, 基于GPU并行计算的软组织器官元球模型自动生成与碰撞检测的方法, 2015.11.09, 中国, CN201510750128.4

(7) 潘俊君; 陈莉娟, 角色动画中基于扩展位置动力学的蒙皮技术及权重重定位的方法, 2016.11.2, 中国, 201611221233.x

(8) 潘俊君; 颜世增; 赵沁平, 一种基于元球模型和混合驱动方法的实时数字器官切割方法, 2017.1.22, 中国, 201710023932.1

(9) 潘俊君; 隋愿; 郝爱民, 一种基于位置动力学和生物热传导方程的实时软组织灼烧仿真方法, 2017.8.5, 中国, 201710857857.9

(10) Junjun Pan; Shizeng Yan; Qinping Zhao, Method for real-time cutting of digital organs based on metal ball model and hybrid driving method, 2017.10.2,美国, 15835408

(11) Junjun Pan; Lijuan Chen, Method for skinning technology based on extended position based dynamics and for weight retargeting in character animation, 2017.9.6, 美国, 15711954

成果转化

一种带有力反馈的虚拟腹腔镜手术模拟器, 专利, 技术转让, 深圳市科创数字显示技术有限公司, 5.0000万元, 2017.4.1

会议特邀学术报告

(1)  潘俊君，基于NOTES的胆囊切除手术模拟的研究，2014年中华医学华数字医学分会学术会议，中国，南京，2014年8月18-21日

(2)  Pan J, Virtual laparoscopic rectum surgery, 2015中国-瑞士医工交叉技术双边研讨会, 中国, 上海, 2015年10月18-21日

获得学术奖励

（1） 潘俊君，英国海外留学生全额奖学金 (三年）, 英国教育部颁发，2006

（2） 潘俊君，"Bournemouth University Scholar"（“伯恩茅斯大学学者”荣誉头衔），伯恩茅斯大学颁发, 2008

（3） 潘俊君，Queen's Anniversary Prize （“女王纪念奖”，英国国家计算机动画中心全体教员集体荣誉），英国皇室颁发, 2012