Image Restoration for Under-Display Camera
This addresses image quality issues for full-screen device users, presenting a novel real-world restoration problem with incremental improvements in data handling and method application.
The paper tackled image degradation in Under-Display Cameras (UDCs) by analyzing optical systems, developing a data acquisition and synthesis pipeline, and applying deconvolution and learning-based methods, achieving real-time high-quality restoration.
The new trend of full-screen devices encourages us to position a camera behind a screen. Removing the bezel and centralizing the camera under the screen brings larger display-to-body ratio and enhances eye contact in video chat, but also causes image degradation. In this paper, we focus on a newly-defined Under-Display Camera (UDC), as a novel real-world single image restoration problem. First, we take a 4k Transparent OLED (T-OLED) and a phone Pentile OLED (P-OLED) and analyze their optical systems to understand the degradation. Second, we design a Monitor-Camera Imaging System (MCIS) for easier real pair data acquisition, and a model-based data synthesizing pipeline to generate Point Spread Function (PSF) and UDC data only from display pattern and camera measurements. Finally, we resolve the complicated degradation using deconvolution-based pipeline and learning-based methods. Our model demonstrates a real-time high-quality restoration. The presented methods and results reveal the promising research values and directions of UDC.