1.
Research and Practice into Construction of Virtual 3D Scene Based on OpenGL
基于OpenGL的虚拟3D场景构建研究与实践
2.
Adding fog effects to a 3D scene can give greater realism,depth and distance,and provide ambiance or set a mood.
在3D场景中加入雾化效果能增加场景的真实感、纵深感和距离感,创造环境氛围。
3.
Developing 3D Interactive Virtual Scene with the Combination of VRML and JAVA;
VRML与JAVA相结合开发3D交互式虚拟场景
4.
The Research and Implement of Scene Rendering Techniques in 3D Game Engines;
3D游戏引擎场景渲染技术的研究与实现
5.
Use JAVA 3D to Realize the Study of the Technology of the Building 3D Scene by Mutual Way;
用JAVA 3D实现交互式三维场景生成技术的研究
6.
Research and Application of Intelligent Path-finding with Virtual Characters in 3D Game Environment
3D游戏场景中虚拟角色的智能寻径应用研究
7.
The Virtual 3D Scene Developed with the Combination of Virtual Software Creator and 3D MAX
虚拟软件Creator与3D MAX结合制作虚拟三维场景
8.
Research and Implementation on Technique of Rendering for Large-scale Outdoor Scene in 3D Game Engine;
3D游戏引擎中的室外大场景渲染技术研究与实现
9.
The Research and Implement of Large Scale Scene Rendering Techniques in 3D Game Engines;
3D游戏引擎中大规模室外场景渲染技术的研究与实现
10.
Their expertise will help recreate a unique3 D module of the crime scene and reconstruct the last moment s of the ancient queen.
专家组将帮助建立一个独特的3D模块,再现当时的犯罪场景,并设想了古代女王的最后时刻。
11.
The Measurement of Flow Fields at the Exit of an Axial Flow Pump Impeller by 3D-PIV;
轴流泵叶轮出口流场的3D-PIV测量
12.
3D dynamic object reconstruction technique based on light field rendering
基于光场渲染的动态3D目标重构技术
13.
Interesting characters and detailed3 D environments.
(有趣的人物造型和细腻的3D环境图像背景。
14.
Influence of Spin Singlet on Zero Field Splitting and g Factors of 3d~2/3d~8 Ions in Trigonal Field
自旋单态对3d~2/3d~8离子在三角场中的零场分裂和顺磁g因子的影响
15.
Research on Key Techniques of 3D Measurement on Bubble Behavior in Gas-liquid Two-phase Flow;
气液两相流场中气泡行为3D测量关键技术研究
16.
3D-PIV Measurements in Clearance between the Impeller and the Diffuser of an Axial Flow Pump;
轴流泵叶轮与导叶轴向间隙内流场的3D-PIV测量
17.
GPU-Accelerated Feature Extraction and Multi-resolution Visualization for Complex 3D Fluid Field
GPU加速3D流场特征提取与多分辨率绘制
18.
The method of 3D VSP wave field separation for high fidelity and optimization
3D VSP高保真最优逼近逐一波场分离方法