English

View Transition based Dual Camera Image Fusion

Computer Vision and Pattern Recognition 2023-12-19 v1

Abstract

The dual camera system of wide-angle (W\bf{W}) and telephoto (T\bf{T}) cameras has been widely adopted by popular phones. In the overlap region, fusing the W\bf{W} and T\bf{T} images can generate a higher quality image. Related works perform pixel-level motion alignment or high-dimensional feature alignment of the T\bf{T} image to the view of the W\bf{W} image and then perform image/feature fusion, but the enhancement in occlusion area is ill-posed and can hardly utilize data from T\bf{T} images. Our insight is to minimize the occlusion area and thus maximize the use of pixels from T\bf{T} images. Instead of insisting on placing the output in the W\bf{W} view, we propose a view transition method to transform both W\bf{W} and T\bf{T} images into a mixed view and then blend them into the output. The transformation ratio is kept small and not apparent to users, and the center area of the output, which has accumulated a sufficient amount of transformation, can directly use the contents from the T view to minimize occlusions. Experimental results show that, in comparison with the SOTA methods, occlusion area is largely reduced by our method and thus more pixels of the T\bf{T} image can be used for improving the quality of the output image.

Cite

@article{arxiv.2312.11184,
  title  = {View Transition based Dual Camera Image Fusion},
  author = {Tiantian Cao and Xuan Dong and Chunli Peng and Zhengqing Li and Xinyu Guo and Weixin Li},
  journal= {arXiv preprint arXiv:2312.11184},
  year   = {2023}
}
R2 v1 2026-06-28T13:54:36.236Z