Robust Estimation of Albedo for Illumination-Invariant Matching and Shape Recovery

TitleRobust Estimation of Albedo for Illumination-Invariant Matching and Shape Recovery
Publication TypeJournal Articles
Year of Publication2009
AuthorsBiswas S, Aggarwal G, Chellappa R
JournalPattern Analysis and Machine Intelligence, IEEE Transactions on
Volume31
Issue5
Pagination884 - 899
Date Published2009/05//
ISBN Number0162-8828
Keywordsalbedo estimation;error statistics;face recognition;illumination-invariant matching;nonstationary stochastic filtering;robust estimation;shape recovery;shape-from-shading approach;error statistics;face recognition;filtering theory;image matching;Algorithm, Automated;Photometry;Reproducibility of Results;Sensitivity and Specificity;, Computer-Assisted;Imaging, Three-Dimensional;Lighting;Pattern Recognition
Abstract

We present a nonstationary stochastic filtering framework for the task of albedo estimation from a single image. There are several approaches in the literature for albedo estimation, but few include the errors in estimates of surface normals and light source direction to improve the albedo estimate. The proposed approach effectively utilizes the error statistics of surface normals and illumination direction for robust estimation of albedo, for images illuminated by single and multiple light sources. The albedo estimate obtained is subsequently used to generate albedo-free normalized images for recovering the shape of an object. Traditional shape-from-shading (SFS) approaches often assume constant/piecewise constant albedo and known light source direction to recover the underlying shape. Using the estimated albedo, the general problem of estimating the shape of an object with varying albedo map and unknown illumination source is reduced to one that can be handled by traditional SFS approaches. Experimental results are provided to show the effectiveness of the approach and its application to illumination-invariant matching and shape recovery. The estimated albedo maps are compared with the ground truth. The maps are used as illumination-invariant signatures for the task of face recognition across illumination variations. The recognition results obtained compare well with the current state-of-the-art approaches. Impressive shape recovery results are obtained using images downloaded from the Web with little control over imaging conditions. The recovered shapes are also used to synthesize novel views under novel illumination conditions.

DOI10.1109/TPAMI.2008.135