TY - GEN
T1 - Active lighting learning for 3D model based vehicle tracking
AU - Hou, Tingbo
AU - Wang, Sen
AU - Qin, Hong
PY - 2010
Y1 - 2010
N2 - Varying illumination is a challenging issue in many computer vision problems (e.g., tagging, matching, and tracking), while in inverse rendering, people are interested in estimating illumination from rendered images or videos. Can these two techniques be combined together to form a unified framework for vehicle tracking and lighting learning? This paper gives probably the first thought in this joint problem, by presenting a framework to adaptively learn lighting from an image sequence while tracking the object (specifically, the vehicle) in it. We formulate the illumination model with both diffusion and specularity components using a frequency-space representation, and design a nonlinear model to estimate lighting coefficients in a low-dimensional subspace. The lighting learning and vehicle tracking are integrated in a unified Markov network, which can be solved by an iterative believe propagation (BP) method. The proposed framework can track a vehicle moving in a video, as well as transfer the learned lighting to other objects, which shows its potential in augmented reality.
AB - Varying illumination is a challenging issue in many computer vision problems (e.g., tagging, matching, and tracking), while in inverse rendering, people are interested in estimating illumination from rendered images or videos. Can these two techniques be combined together to form a unified framework for vehicle tracking and lighting learning? This paper gives probably the first thought in this joint problem, by presenting a framework to adaptively learn lighting from an image sequence while tracking the object (specifically, the vehicle) in it. We formulate the illumination model with both diffusion and specularity components using a frequency-space representation, and design a nonlinear model to estimate lighting coefficients in a low-dimensional subspace. The lighting learning and vehicle tracking are integrated in a unified Markov network, which can be solved by an iterative believe propagation (BP) method. The proposed framework can track a vehicle moving in a video, as well as transfer the learned lighting to other objects, which shows its potential in augmented reality.
UR - https://www.scopus.com/pages/publications/77956516922
U2 - 10.1109/CVPRW.2010.5543911
DO - 10.1109/CVPRW.2010.5543911
M3 - Conference contribution
AN - SCOPUS:77956516922
SN - 9781424470297
T3 - 2010 IEEE Computer Society Conference on Computer Vision and Pattern Recognition - Workshops, CVPRW 2010
SP - 38
EP - 43
BT - 2010 IEEE Computer Society Conference on Computer Vision and Pattern Recognition - Workshops, CVPRW 2010
T2 - 2010 IEEE Computer Society Conference on Computer Vision and Pattern Recognition - Workshops, CVPRW 2010
Y2 - 13 June 2010 through 18 June 2010
ER -