王华维 - 北京应用物理与计算数学研究所 -

个人简介

教育经历 1998/09 – 2004/07，清华大学，计算机科学与技术系，工学硕士、博士 1993/09 – 1998/07，清华大学，应用数学系/计算机科学与技术系，理学学士、工学学士工作经历 2009/06 – 至今，北京应用物理与计算数学研究所，助理研究员、副研究员 2007/01 – 2009/06，香港城市大学，制造工程与工程管理学系，研究助理 2006/05 – 2007/01，香港科技大学，机械工程学系，研究助理 2004/07 – 2006/04，清华大学，精密仪器与机械学系，博士后个人荣誉、所获奖项获2014年中国工程物理研究院科技创新奖二等奖1项（排名第4）

研究领域

面向大规模科学与工程计算，研究海量科学数据的可视化与特征分析算法，包括自适应体绘制、转换函数设计、粒子可视化、流线可视化、可视分析流程以及并行性能优化等，着眼于提升可视化的表现力和性能；另一方面，面向大规模曲面模型，研究多分辨率曲面造型技术，包括细分曲面造型技术、细分小波分析技术、基于物理的曲面造型技术等，着眼于提升模型绘制的交互性。

近期论文

查看导师最新文章（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）

(1) Huawei Wang, Li Xiao, Zhiwei Ai, Yi Cao. A Visualization Pipeline for Computable Geometric Model Data. Proceedings of International Conference on CGVCVIP 2017, pp. 147-154, IADIS Press, Lisbon Portugal, July 2017. (2) Huawei Wang, Li Xiao, Yi Cao, Zhiwei Ai, Pingjun Xu. Visibility-Culling-Based Geometric Rendering of Large-Scale Particle Data. Proceedings of 2016 International Conference on Virtual Reality and Visualization, pp. 197-203, IEEE CPS, Hangzhou China, Sept. 2016. (3) Huawei Wang, Zhiwei Ai, Yi Cao, Li Xiao. A Parallel Preintegration Volume Rendering Algorithm Based on Adaptive Sampling. Journal of Visualization, 19(3): 437-446, Springer, Aug. 2016. (4) Huawei Wang, Zhiwei Ai, Yi Cao. Information-entropy based load balancing in parallel adaptive volume rendering. Proceedings of International Conference on CGVCVIP 2015, pp. 163-169, IADIS Press, 2015. (5) Huawei Wang, Yi Cao, Li Xiao, Guoqing Wu. A Parallel Adaptive Volume Rendering Algorithm Based on Information Entropy. Proc. of ICVRV ’2013, pp. 127-131, IEEE Computer Society, Xi’an China, 2013. (6) Huawei Wang, Li Xiao, Yi Cao. A Parallel Adaptive Volume Rendering Algorithm with Static Load Balancing, IADIS CGVCVIP Conference ’2012, pp. 137-141, Lisbon, Portugal, July 2012. (7) Weiyin Ma, Huawei Wang. Interpolating an Arbitrary Number of Joint B-Spline Curves by Loop Surfaces, Computers and Graphics, 36(5): 321-328, 2012. (8) Huawei Wang, Li Xiao, Yi Cao. An Adaptive Sampling Based Parallel Volume Rendering Algorithm. Proc. of ICVRV ’2011, pp. 158-163, IEEE Computer Society, Beijing China, 2011. (9) Huawei Wang and W. Ma. Biorthogonal wavelets based on interpolatory root 2 subdivision, Computer Graphics Forum, DOI: 10.1111/j.1467-8659.2009.01349.x, 2009. (10) W. Ma, Huawei Wang. Loop subdivision surfaces interpolating B-spline curves, Computer-Aided Design, DOI:10.1016/j.cad.2009.03.011, 2009. (11) Huawei Wang and K. Tang. Biorthogonal wavelet construction for hybrid quad/triangle meshes, Visual Computer, 25 (4): 349-366, April 2009. (12) Huawei Wang, K. Tang, K. Qin. Biorthogonal wavelets based on gradual subdivision of quadrilateral meshes, Computer Aided Geometric Design, 25 (9): 816-836, 2008. (13) Huawei Wang, K. Qin, H. Sun. Root 3-Subdivision-based Biorthogonal Wavelets, IEEE Transactions on Visualization and Computer Graphics, Vol. 13, No. 5, pp. 914-925, Sept./Oct. 2007. (14) Huawei Wang, K. Qin, K. Tang. Efficient wavelet construction with Catmull-Clark subdivision, Visual Computer, 22 (9-11): 874-884, Sep. 2006. (15) Huawei Wang, K. Qin, H. Sun. Evaluation of Non-Uniform Doo-Sabin Surfaces, International Journal of Computational Geometry and Applications, Vol. 15, No. 3, 299-324, Jun. 2005. (16) Huawei Wang, K. Qin. Surface Modeling with Ternary Interpolating Subdivision, Visual Computer, 21(1-2): 59-70, Feb., 2005.