姓名:秦开怀

职称:教授

邮箱:qkh-dcs@tsinghua.edu.cn

电话:62783505-8002 

主页:http://hpc.cs.tsinghua.edu.cn/old/compgraphics/qkh.htm

高性能计算研究所教授,博士生导师;沈阳航空工业学院兼职教授。1990年获工学博士学位。1999.9~2000.8年于美国哈佛大学(Surgical Planning Lab., BWH,Harvard Medical School, Harvard University)作访问研究;1996~1997、1998.11~1998.12、1999.6~1999.9、 2001.9~2001.10、2003.7~2003.9、2005.8~2005.9、2007.1~2007.2、2008.07-2008.09多次到香港大学计算机科学系、香港中文大学计算机科学与工程系和香港城市大学MEEM等,作访问研究。应邀在Medical Imaging and Augmented Reality’2001 (MIAR’2001, Hong Kong)等国际会议上作特邀报告。作为项目负责人已完成和国家自然科学基金项目7项、北京市自然科学基金项目2项、教育部博士点基金项目4项、国家863计划项目3项,曹光彪研究基金项目1项、国际合作项目4项。

 

学术兼职

担任 IASTED 国际会议Computer Graphics Imaging’2000分会主席;

担任国际会议Pacific Graphics ’98分会主席;

多次担任 Pacific Graphics、Geometric Modeling & Processing、Computer Graphics Imaging、CAD/CG等国际会议的程序委员会委员;

经常为《IEEE Transactions on Image Processing》、《IEEE Transactions on Multimedia》、《Computers & Graphics》、《The Visual Computer》、《中国科学》(中英文版)、《计算机学报》、《Journal of Computer Science & Technology》、《软件学报》、《计算机辅助设计与图形学学报》、《自然科学进展》(中英文版)、《中国图象图形学报》和《计算机研究与发展》等学术刊物以及Pacific Graphics、Computer Graphics International、Computer Graphics Imaging、CAD/CG等国际会议审稿;

经常作为同行评议专家评审国家自然科学基金项目、教育部博士点基金项目、浙江省自然科学基金项目等等。

 

研究领域

超声波快速成像及无损检测技术

2D-3D视频转换技术

裸眼3D显示技术

数字几何处理(第二代小波变换及多分辨率几何造型);

真实感图形实时云绘制;

组合显示/多投影组合显示墙;

计算机视觉、图像处理与可视化;

计算机游戏、网络图形及其并行渲染技术、动画与虚拟现实;

CAD/CAM等

讲授课程

本科生课程:《计算机程序设计基础》,48学时/32学时

本科生课程:《计算机实时图形和动画技术》,32学时

研究生课程:《计算机辅助几何造型技术》,48学时

负责项目

可伸缩的高分辨率投影及其自由立体显示技术,国家863计划信息技术领域(虚拟现实专题)课题(#2006AA01Z326);

基于几何约束lifting技术的细分小波变换研究,国家自然科学基金项目(#60973101);

第二代小波及其在信息安全和数据压缩中的应用技术研究,国家自然科学基金项目(#60773144);

计算机图形学中的GPU计算技术研究,国家自然科学基金项目(#60473112);

任意拓扑复杂曲面造型技术及应用研究,国家自然科学基金项目(#60273013);

互联网图像信息的多特征检测及搜索关键技术研究,北京市自然科学基金项目(#4102027);

数字几何处理的lifting小波分析及应用技术研究,北京市自然科学基金项目(#4072015);

图像配准的分数傅立叶变换技术研究,博士点基金项目(#20090002110006);

任意次非均匀曲面细分及多分辨率造型技术研究,博士点基金项目(#20130002110002);

计算机真实感图形实时显示及自主计算技术研究,教育部博士点基金项目;

图形与图像数据压缩的曲面小波理论研究,教育部博士点基金项目;

GPU-based interactive global illumination rendering for large dynamic scenes,国际合作(德国西门子公司)项目(# 20103000243);

Development of a fast processing method for shape measurement with ultrasonic SAFT,国际合作(日本三菱公司)项目(#20103000446);

Position extractions of components by Hough Transform,国际合作项目(日本欧姆龙公司);

Virtual reconstruction of cultural heritage: The Emperor Qin's Terra-cotta Army,国家自然科学基金委员会与韩国科学与工程基金会(NSFC/KOSEF)联合资助合作研究项目(#60610360);

计算机高真实感图形的实时显示及其PC集群系统,企业合作项目;

小卫星遥感图像三维地形匹配技术的研究,清华大学985项目

奖励与荣誉

曾获“清华大学优秀博士后”奖、清华大学科技成果推广应用效益显著奖;

两次获得省部级科技进步二等奖。

多次获湖北省科协优秀论文一、二等奖和北京计算机学会青年优秀论文一等奖,

一篇论文曾在德国Darmstadt被评为国际计算机图形学6篇优秀论文之一(one of the best six papers of the International Computer Graphics,全亚洲1名);

曾有一项NSFC项目被国家自然科学基金委员会信息学部评议为“特优”。

学术成果

[1]Xiong Xiong, Kaihuai Qin, Linear ly Estimat ing All Parameters of Affine Motion Using Radon Transform, accepted by IEEE Transactions on Image Process, 2014.

[2]Kaihuai Qin, Chun Yang, and Feng Sun, Generalized Frequency-domain SAFT for Ultrasonic Imaging of Irregularly Layered Objects,IEEE Transactions on Ultrasonics, Ferroelectrics, and Frequency Control, 61(1): 133-146, Jan.2014.

[3]Chun Yang, Kaihuai Qin, "Real-time Ultrasonic Imaging for Multilayered Objects with Synthetic Aperture Focusing Technique," Accepted by 2014 IEEE International Instrumentation and Measurement Conference (I2MTC 2014), Montevideo, Uruguay, 12-15 May, 2014.

[4]Chun Yang, Kaihuai Qin, "Fast Ultrasonic Imaging for Irregularly Layered Objects with Synthetic Aperture Focusing Technique," Proceedings of the 2013 IEEE International Instrumentation and Measurement Conference (I2MTC 2013), Minneapolis, MN, May 6-9, 2013, pp. 1006-1011.

[5]Feng Sun, Kaihuai Qin, Wei Sun, "Fast two-step exemplar-based image inpainting", Proceedings of 2013 7th International Conference on Image and Graphics (ICIG 2013), Qingdao, Shandong, China, July 26-28, 2013, pp. 99-105.

[6]Ruirui Li, Kaihuai Qin, Fast and accurate volume-based indirect lighting by irradiance decomposition, ACM SIGGRAPH Symposium on Interactive 3D Graphics and Games (I3D),March 21-23, 2013.

[7]Miao Mao, Kaihuai Qin. A new combination of monocular and stereo cues for dense disparity estimat ion, Proc. of SPIE, Bellingham: Society of Photo-Optical Instrumentation Engineers Press, 2013, 8878:88782B.

[8]Feng Sun, Kaihuai Qin. Fast Two-Step Exemplar-Based Image Inpainting, Seventh International Conference on Image and Graphics (ICIG), 2013.

[9]Jianli Luo, Kaihuai Qin, Yanxia Zhou, et al. GPU rendering for tiled multi-projector autostereoscopic display based on Chromium, Visual Computer, 26: 457–465, 2010.

[10]Jianli Luo, Kaihuai Qin, Yanxia Zhou, et al. GPU-Based multiview Rendering for Spatial-Multiplex Autostereoscopic displays. Proceedings of the 3rd IEEE ICCSIT 2010.

[11]Wei Pan, Kaihuai Qin, Yao Chen. An Adaptable-Multilayer Fractional Fourier Transform Approach for Image Registration, IEEE Transactions on Pattern Analysis and Machine Intelligence, 31(3):400- 414,2009.

[12]H. Wang, K. Tang, K. Qin. Biorthogonal wavelets based on gradual subdivision of quadrilateral meshes, In press by Computer Aided Geometric Design (CAGD), Available online at the Website of CAGD, 2008.

[13]Wei Hu, Kaihuai Qin. Interactive approximate rendering of reflection, refraction and caustics. IEEE Transactions on Visualization and Computer Graphics, 13(1):46-57, Jan.2007.

[14]H. Wang, K. Qin, H. Sun. √3-Subdivision-based Biorthogonal Wavelets, IEEE Transactions on Visualization and Computer Graphics, 13(5):914-924, 2007.

[15]Huawei Wang, Kaihuai Qin, Kai Tang. Efficient Wavelet Construction with Catmull-Clark Subdivision, The Visual Computer, 22(9-11):874-884, 2006.

[16]Hu W, Qin Kaihuai, Wang H, Li Y. Reflections and refraction on implicit surfaces. Journal of Computer Science and Technology. 21(2): 166-172, 2006.

[17]Li D, Qin Kaihuai, Sun H. Curve modeling with constrained B-spline wavelets, Computer Aided Geometric Design, 22 (1):45-56, 2005.

[18]Wang H, Qin Kaihuai. Surface modeling with ternary interpolating subdivision, The Visual Computer, 21(1-2): 59-70, 2005.

[19]Wang H, Qin Kaihuai, Sun S. Evaluation of non-uniform Doo-Sabin surfaces, International Journal of Computational Geometry and Applications, 15(3):299-324, Jun. 2005.

[20]Wang H, Sun H, Qin Kaihuai. Deformable surface modeling based on dual subdivision, Progress in Natural Science, 15(1): 81-88, 2005.

[21]Wang H, Sun H, Qin Kaihuai. Estimating recursion depth for Loop subdivision, International Journal of CAD/CAM, 4(1): 11-18, 2004.

[22]Wang H, Qin Kaihuai. Estimating Subdivision Depth of Catmull-Clark Surfaces, Journal of Computer Science and Technology, 19(5): 657-664, 2004.

[23]Dai Junfu, Wang Huawei, Qin Kaihuai. Parallelly generating NC tool paths for subdivision surfaces. International Journal of CAD/CAM, 4(1):47-53, 2004.

[24]Li Denggao, Qin Kaihuai, Sun Hanqiu. Unlifted Loop Subdivision Wavelets, Proceedings of Pacific Graphics '04, pp.25-33, Korea, 2004.

[25]Qin Kaihuai, Chang Zhengyi, Wang Huawei, Li Denggao. Physics-based Loop Surface Modeling, Journal of Computer Science and Technology, 17 (6): 851-858, 2002.

[26]W. Wang, Kaihuai Qin. Existence and computation of spherical rational quartic curves for Hermite interpolation, The Visual Computer,16(3-4):187-196, 2000.

[27]Kaihuai Qin. General matrix representations for B-splines, The Visual Computer, 16(3-4):177-186, 2000.

[28]Qin Kaihuai, Wang Huawei. Continuity of non-uniform recursive subdivision surfaces, Science in China (Series E), 43(5): 461-472, 2000.

[29]Qin Kaihuai, Wang Huawei. Eigenanalysis and continuity of non-uniform Doo-Sabin surfaces. Proceedings of Pacific Graphics’99, IEEE Computer Society Press, SNU, Korea, pp.179-186, Oct. 1999.

[30]Kaihuai Qin, M Gong, Y Guan, W Wang. A new method for speeding up ray tracing NURBS surfaces, Computers & Graphics, 21(5):577-586, 1997.

[31]Kaihuai Qin. A matrix method for degree raising of B-spline curves, Science in China (Series E), 40(1):71-81, 1997.

[32]Kaihuai Qin, B. Wu, Y. Guan & Z. Ge. Optimal tetrahedral mesh generation for 3D points, Science in China (Series E), 40(2):135-143, 1997.