欢迎您!
东篱公司
退出
申报数据库
申报指南
立项数据库
成果数据库
期刊论文
会议论文
著 作
专 利
项目获奖数据库
位置:
成果数据库
>
会议
> 会议详情页
Vision field capture for advanced 3DTV applications
所属机构名称:清华大学
会议名称:2011 IEEE Visual Communications and Image Processing, VCIP 2011
时间:2011
成果类型:会议
相关项目:数据驱动的多维媒体感知与理解
作者:
Cao X.|Liu Y.|Ji X.|Dai Q.|
同会议论文项目
数据驱动的多维媒体感知与理解
期刊论文 57
会议论文 24
同项目会议论文
Transparent object reconstruction via coded transport of intensity
A Single Frame Super-Resolution Method Based on Matrix Completion
3D SPATIAL RECONSTRUCTION AND COMMUNICATION FROM VISION FIELD
Hybrid image deblurring by fusing edge and power spectrum information
Indoor structure understanding from single 360 cylindrical panoramic image
A NOVEL 2D-TO-3D SCHEME BY VISUAL ATTENTION AND OCCLUSION ANALYSIS
Dynamic shape capture via periodical-illumination optical flow estimation and multi-view photometric
Adaptive information interactive mechanism for multi-UAV visual navigation
Iterative feedback estimation of depth and radiance from defocused images
Frequency analysis of transient light transport with applications in bare sensor imaging
Implicit surface reconstruction based on adaptive clustering
Multi-resolution mesh fitting by B-spline surfaces for reverse engineering
An example-driven symbol recognition approach based on key features in engineering drawings
Visual words assignment on a graph via minimal mutual information loss
Multi-view photometric stereo of non-Lambertian surface under general illuminations
High Resolution Multispectral Video Capture with a Hybrid Camera System
GRAVITY-ORIENTED NONLINEAR STEREO RECTIFICATION FOR STEREOSCOPIC 3D
Visual information, sparse decomposition, and transmission for multi-UAV visual navigation
ROBUST FOCAL LENGTH ESTIMATION BASED ON MINIMAL SOLUTION METHOD
A NOVEL METHOD FOR 2D-TO-3D VIDEO CONVERSION USING BI-DIRECTIONAL MOTION ESTIMATION
Fourier analysis on transient imaging with a multifrequency time-of-flight camera
Recovering scene geometry under wavy fluid via distortion and defocus analysis
Exploring aligned complementary image pair for blind motion deblurring