The exploration of underwater environments poses significant challenges due to the optical properties of water, leading to color distortion, reduced contrast and blurring in images.This work aims to enhance the clarity and fidelity of underwater images and videos in near Evolution of the internal load and physical condition of wheelchair basketball players during the competitive season real-time.The SeaThru physics-based color correction method was suitably adapted for obtaining target images across a diverse collection of underwater datasets considered.Based on these target images, the MIMO-UNet model is used to address the processing speed limitations of the physics-based correction methods, enabling near real-time image and video processing without explicit depth information.The proposed method has been integrated into autonomous underwater observation systems and remotely operated vehicle (ROV) cameras, offering enhanced visibility.
Additionally, we build a MIMO-UNet network for generating realistic synthetic underwater images, valuable for training and The Influence of Empathy and Consumer Forgiveness on the Service Recovery Effect of Online Shopping simulation.This research advances underwater imaging enhancement and restoration, significantly improving visual data quality and vision-dependent tasks in submerged environments.The public release of the dataset aims to facilitate further research and development in this field.