Attentive Illumination Decomposition Model for Multi-Illuminant White Balancing
This addresses the issue of unnatural white balance in photography for scenes with mixed lighting, offering improved accuracy and enabling new applications like illumination editing.
The paper tackles the problem of white balancing in scenes with multiple light sources, which causes undesirable results in commercial cameras, by introducing a deep model that uses slot attention to represent individual illuminants and achieves state-of-the-art performance on benchmarks.
White balance (WB) algorithms in many commercial cameras assume single and uniform illumination, leading to undesirable results when multiple lighting sources with different chromaticities exist in the scene. Prior research on multi-illuminant WB typically predicts illumination at the pixel level without fully grasping the scene's actual lighting conditions, including the number and color of light sources. This often results in unnatural outcomes lacking in overall consistency. To handle this problem, we present a deep white balancing model that leverages the slot attention, where each slot is in charge of representing individual illuminants. This design enables the model to generate chromaticities and weight maps for individual illuminants, which are then fused to compose the final illumination map. Furthermore, we propose the centroid-matching loss, which regulates the activation of each slot based on the color range, thereby enhancing the model to separate illumination more effectively. Our method achieves the state-of-the-art performance on both single- and multi-illuminant WB benchmarks, and also offers additional information such as the number of illuminants in the scene and their chromaticity. This capability allows for illumination editing, an application not feasible with prior methods.