TY - GEN
T1 - Enhanced Dual-Pixel Image Reflection Removal via Gaussian Splatting
AU - Yu, Kailong
AU - Pan, Liyuan
AU - Liu, Liu
AU - Liang, Wei
N1 - Publisher Copyright:
© 2025 ACM.
PY - 2025/10/27
Y1 - 2025/10/27
N2 - Image de-reflection is a critical task in computer vision. Existing methods for de-reflection using monocular cameras face challenges due to the lack of depth cues to separate the transmission and reflection layers, particularly under strong illumination or multi-layer reflection scenarios. Although recent advances, such as 3D Gaussian Splatting (3DGS), utilize novel view-synthesis capabilities to separate transmitted and reflected layers, they still encounter difficulties in practice with monocular images. In this paper, we simplify the de-reflection task by combining dual-pixel (DP) technology with 3DGS, forming the first unsupervised de-reflection framework. Specifically, we propose the Dual-View Coordinated Reflection Removal (DCRR) Framework, which integrates depth cues from DP sensors with the rendering capabilities of 3DGS. The DCRR utilizes a dual-view approach that estimates the image transmission layer and opacity via differentiable rasterization with 3DGS and reconstructs the reflection layer through a lightweight multi-layer perceptron. We then present the Dual-Pixel-Driven Reflection Gaussian Pruning (DPRGP) to refine the separation process. By using the physical properties of DP sensors, DCRR achieves significant accuracy improvements in complex reflection scenarios. A real-world DP-based dataset that includes paired reflection/reflection-free images has been collected. Extensive experiments demonstrate our competitive performance compared to state-of-the-art de-reflection approaches.
AB - Image de-reflection is a critical task in computer vision. Existing methods for de-reflection using monocular cameras face challenges due to the lack of depth cues to separate the transmission and reflection layers, particularly under strong illumination or multi-layer reflection scenarios. Although recent advances, such as 3D Gaussian Splatting (3DGS), utilize novel view-synthesis capabilities to separate transmitted and reflected layers, they still encounter difficulties in practice with monocular images. In this paper, we simplify the de-reflection task by combining dual-pixel (DP) technology with 3DGS, forming the first unsupervised de-reflection framework. Specifically, we propose the Dual-View Coordinated Reflection Removal (DCRR) Framework, which integrates depth cues from DP sensors with the rendering capabilities of 3DGS. The DCRR utilizes a dual-view approach that estimates the image transmission layer and opacity via differentiable rasterization with 3DGS and reconstructs the reflection layer through a lightweight multi-layer perceptron. We then present the Dual-Pixel-Driven Reflection Gaussian Pruning (DPRGP) to refine the separation process. By using the physical properties of DP sensors, DCRR achieves significant accuracy improvements in complex reflection scenarios. A real-world DP-based dataset that includes paired reflection/reflection-free images has been collected. Extensive experiments demonstrate our competitive performance compared to state-of-the-art de-reflection approaches.
KW - 3D Gaussian splatting
KW - dual-pixel sensor
KW - reflection removal
KW - unsupervised
UR - https://www.scopus.com/pages/publications/105024069279
U2 - 10.1145/3746027.3755094
DO - 10.1145/3746027.3755094
M3 - Conference contribution
AN - SCOPUS:105024069279
T3 - MM 2025 - Proceedings of the 33rd ACM International Conference on Multimedia, Co-Located with MM 2025
SP - 7766
EP - 7775
BT - MM 2025 - Proceedings of the 33rd ACM International Conference on Multimedia, Co-Located with MM 2025
PB - Association for Computing Machinery, Inc
T2 - 33rd ACM International Conference on Multimedia, MM 2025
Y2 - 27 October 2025 through 31 October 2025
ER -