Hierarchical Color Constancy via Efficient Spectral Feature Extraction

This paper presents an empirical investigation into illuminant estimation using multi-spectral images. Our study emphasizes two key contributions: (1) the utilization of the estimated multi-spectral images and (2) the incorporation of a hierarchical structure. Firstly, exploiting multi-spectral images proves to have a positive influence on illuminant estimation, particularly in scenarios characterized by monochromatic images where conventional color constancy methods face challenges. Our experimental results vividly illustrate the effectiveness of leveraging spectral information in enhancing illuminant estimation. Secondly, the adoption of a hierarchical structure stems from the need for spatial invariance in the task of estimating a global illuminant. To further enhance the performance of the hierarchical structure, we employ a contrastive loss applied to different scaled outputs. This approach demonstrates remarkable effectiveness on our custom dataset, showcasing superior performance compared to the existing methods. In addition, we extend the evaluation to the widely recognized NUS-8 dataset, where the proposed method showcases a notable 26.7% relative improvement over the previous state-of-the-art methods.