22 research outputs found
Non-Homogeneous Haze Removal via Artificial Scene Prior and Bidimensional Graph Reasoning
Due to the lack of natural scene and haze prior information, it is greatly
challenging to completely remove the haze from single image without distorting
its visual content. Fortunately, the real-world haze usually presents
non-homogeneous distribution, which provides us with many valuable clues in
partial well-preserved regions. In this paper, we propose a Non-Homogeneous
Haze Removal Network (NHRN) via artificial scene prior and bidimensional graph
reasoning. Firstly, we employ the gamma correction iteratively to simulate
artificial multiple shots under different exposure conditions, whose haze
degrees are different and enrich the underlying scene prior. Secondly, beyond
utilizing the local neighboring relationship, we build a bidimensional graph
reasoning module to conduct non-local filtering in the spatial and channel
dimensions of feature maps, which models their long-range dependency and
propagates the natural scene prior between the well-preserved nodes and the
nodes contaminated by haze. We evaluate our method on different benchmark
datasets. The results demonstrate that our method achieves superior performance
over many state-of-the-art algorithms for both the single image dehazing and
hazy image understanding tasks