Your search keyword '"van de Weijer, Joost"' showing total 2 results

1. Robust Photometric Invariant Feature s From the Color Tensor.

Author

van de Weijer, Joost, Gevers, Theo, and Smeulders, Arnold W. M.

Subjects

*PHOTOMETRY, *ELECTROMAGNETIC measurements, *COMPUTER vision, *IMAGE processing, *ARTIFICIAL intelligence, *TENSOR algebra, *THEORY

Abstract

Luminance-based features are widely used as low-level input for computer vision applications, even when color data is available. The extension of feature detection to the color domain prevents information loss due to isoluminance and allows us to exploit the photometric information. To fully exploit the extra information in the color data, the vector nature of color data has to be taken into account and a sound framework is needed to combine feature and photometric invariance theory. In this paper, we focus on the structure tensor, or color tensor, which adequately handles the vector nature of color images. Further, we combine the features based on the color tensor with photometric invariant derivatives to arrive at photometric invariant features. We circum- vent the drawback of unstable photometric invariants by deriving an uncertainty measure to accompany the photometric invariant derivatives. The uncertainty is incorporated in the color tensor, hereby allowing the computation of robust photometric invariant features. The combination of the photometric invariance theory and tensor-based features allows for detection of a variety of features such as photometric invariant edges, corners, optical flow, and curvature. The proposed features are tested for noise char- acteristics and robustness to photometric changes. Experiments show that the proposed features are robust to scene incidental events and that the proposed uncertainty measure improves the applicability of full invariants. [ABSTRACT FROM AUTHOR]

Published

2006

2. Edge and Corner Detection by Photometric Quasi-Invariants.

Author

van de Weijer, Joost, Gevers, Theo, and Geusebroek, Jan-Mark

Subjects

*COMPUTER vision, *ARTIFICIAL intelligence, *IMAGE processing, *PATTERN recognition systems, *PHOTOMETRY, *COMPUTATIONAL intelligence

Abstract

Feature detection is used in many computer vision applications such as image segmentation, object recognition, and image retrieval. For these applications, robustness with respect to shadows, shading, and specularities is desired. Features based on derivatives of photometric invariants, which we will call full in variants, provide the desired robustness. However, because computation of photometric invariants involves nonlinear transformations, these features are unstable and, therefore, impractical for many applications. We propose a new class of derivatives which we refer to as quasi-invariants. These quasi-invariants are derivatives which share with full photometric invariants the property that they are insensitive for certain photometric edges, such as shadows or specular edges, but without the inherent instabilities of full photometric invariants. Experiments show that the quasi-invariant derivatives are less sensitive to noise and introduce less edge displacement than full invariant derivatives. Moreover, quasi-invariants significantly outperform the full invariant derivatives in terms of discriminative power. [ABSTRACT FROM AUTHOR]

Published

2005