Time and order estimation of paintings based on visual features and expert priors
Abstract
Time and order are considered crucial information in the art domain, and subject of many research efforts by historians. In this paper, we present a framework for estimating the ordering and date information of paintings and drawings. We formulate this problem as the embedding into a one dimension manifold, which aims to place paintings far or close to each other according to a measure of similarity. Our formulation can be seen as a manifold learning algorithm, albeit properly adapted to deal with existing questions in the art community. To solve this problem, we propose an approach based in Laplacian Eigenmaps and a convex optimization formulation. Both methods are able to incorporate art expertise as priors to the estimation, in the form of constraints. Types of information include exact or approximate dating and partial orderings. We explore the use of soft penalty terms to allow for constraint violation to account for the fact that prior knowledge may contain small errors. Our problem is tested within the scope of the PrintART project, which aims to assist art historians in tracing Portuguese Tile art "Azulejos" back to the engravings that inspired them. Furthermore, we describe other possible applications where time information (and hence, this method) could be of use in art history, fake detection or curatorial treatment.
BibTeX
@conference{Cabral-2011-120923,author = {R. Cabral and Joao P. Costeira and F. De la Torre and A. Bernardino and G. Carneiro},
title = {Time and order estimation of paintings based on visual features and expert priors},
booktitle = {Proceedings of SPIE Computer Vision and Image Analysis of Art II},
year = {2011},
month = {February},
volume = {7869},
}