Efficient method for point-based rendering on GPUs

被引:0
作者
Yan, Lamei [1 ]
Yuan, Youwei [2 ]
机构
[1] Hangzhou Dianzi Univ, Sch Printing Engn, Hangzhou 310018, Peoples R China
[2] Hangzhou Dianzi Univ, Sch Comp & Software, Hangzhou 310018, Peoples R China
来源
TECHNOLOGIES FOR E-LEARNING AND DIGITAL ENTERTAINMENT, PROCEEDINGS | 2008年 / 5093卷
关键词
GPUs; mesh simplification; animation; real-time rendering;
D O I
暂无
中图分类号
TP31 [计算机软件];
学科分类号
081202 ; 0835 ;
摘要
We describe methods for high-perfomance and high-quality rendering of point models, including advanced shading, anti-aliasing, and transparency. we keep the rendering quality as the previous GPU-based point rendering approaches, while involving normal vector computation for each frame. We also present efficient data structures for hierarchical rendering on modern graphics processors (GPUs). In addition we will address methods for geometric processing, filtering and resampling of point models. Examples are presented to illustrate the quality of the meshes produced, and the flexibilities of the computational system.
引用
收藏
页码:687 / +
页数:3
相关论文
共 50 条
[41]   A Real-time Rendering Method Based on Precomputed Hierarchical Levels of Detail in Huge Dataset [J].
Kai, Zhou ;
Feng, Tian .
INTERNATIONAL JOURNAL OF COMPUTER SCIENCE AND NETWORK SECURITY, 2014, 14 (07) :32-36
[42]   Efficient GPU Rendering of Subdivision Surfaces using Adaptive Quadtrees [J].
Brainerd, Wade ;
Foley, Tim ;
Kraemer, Manuel ;
Moreton, Henry ;
Niessner, Matthias .
ACM TRANSACTIONS ON GRAPHICS, 2016, 35 (04)
[43]   Efficient and Fair Multi-programming in GPUs via Effective Bandwidth Management [J].
Wang, Haonan ;
Luo, Fan ;
Ibrahim, Mohamed ;
Kayiran, Onur ;
Jog, Adwait .
2018 24TH IEEE INTERNATIONAL SYMPOSIUM ON HIGH PERFORMANCE COMPUTER ARCHITECTURE (HPCA), 2018, :247-258
[44]   Mobility culling: an efficient rendering algorithm using temporal coherence [J].
Oh, KS ;
Shin, BS ;
Shin, YG .
JOURNAL OF VISUALIZATION AND COMPUTER ANIMATION, 2001, 12 (03) :159-166
[45]   Spatiotemporal sensitivity and visual attention for efficient rendering of dynamic environments [J].
Yee, H ;
Pattanaik, S ;
Greenberg, DP .
ACM TRANSACTIONS ON GRAPHICS, 2001, 20 (01) :39-65
[46]   A Real-time Rendering Method Based on Precomputed Hierarchical Levels of Detail in Huge Dataset [J].
Zhou, Kai ;
Tian, Feng ;
Ren, Zhong ;
Guo, Hao .
2014 PROCEEDINGS OF THE 9TH INTERNATIONAL CONFERENCE ON COMPUTER SCIENCE & EDUCATION (ICCSE 2014), 2014, :789-792
[47]   A real-time rendering method based on contour drawing techniques in Japanese ink painting [J].
Yumoto, Hina ;
Kodama, Shuhei ;
Takahashi, Tokiichiro .
INTERNATIONAL WORKSHOP ON ADVANCED IMAGE TECHNOLOGY (IWAIT) 2019, 2019, 11049
[48]   Heuristic based real-time hybrid rendering with the use of rasterization and ray tracing method [J].
Walewski, Patryk ;
Galaj, Tomasz ;
Szajerman, Dominik .
OPEN PHYSICS, 2019, 17 (01) :527-544
[49]   Real-Time Rendering of Point Clouds With Photorealistic Effects: A Survey [J].
Kivi, Petrus E. J. ;
Makitalo, Markku J. ;
Zadnik, Jakub ;
Ikkala, Julius ;
Vadakital, Vinod Kumar Malamal ;
Jaaskelainen, Pekka O. .
IEEE ACCESS, 2022, 10 :13151-13173
[50]   FANG: Fast and Efficient Successor-State Generation for Heuristic Optimization on GPUs [J].
Koester, Marcel ;
Gross, Julian ;
Krueger, Antonio .
ALGORITHMS AND ARCHITECTURES FOR PARALLEL PROCESSING (ICA3PP 2019), PT I, 2020, 11944 :223-241
12345