RetinexMCNet: A Memory Controller Dominated Network for Low-Light Video Enhancement Based on Retinex

Meiao Wang, Xuejing Kang, Yaxi Lu, Jie Xu; Proceedings of the IEEE/CVF International Conference on Computer Vision (ICCV), 2025, pp. 9716-9725

Low-light video enhancement (LLVE) aims to restore videos degraded by insufficient illumination.While existing methods have demonstrated their effectiveness, they often face challenges with intra-frame noise, overexposure, and inter-frame inconsistency since they fail to exploit the temporal continuity across frames.Inspired by the progressive video understanding mechanism of human, we propose a novel end-to-end two-stage memory controller (MC) dominated network (RetinexMCNet). Specifically, we first define the overall optimization objective for Retinex-based LLVE, and accordingly design our framework.In stage one, aided by a dual-perspective Lightness-Texture Stability (LTS) loss, we perform per-frame enhancement without the MC, which uses a channel-aware Illumination Adjustment Module (IAM) and an illumination-guided Reflectance Denoising Module (RDM) based on Retinex theory to mitigate intra-frame noise and overexposure.In stage two, we activate the MC to simulate human temporal memory and integrate it with high-quality single frames for global consistency.Extensive qualitative and quantitative experiments on common low-light sRGB datasets demonstrate our method significantly outperforms state-of-the-art approaches. Code is available at xxx/xxx/xxx.