Efficient point cloud segmentation approach using energy optimization with geometric features for 3D scene understanding

Most learning-based methods previously used in image dehazing employ a supervised learning strategy, which is time-consuming and requires a large-scale dataset. However, large-scale datasets are difficult to obtain. Here, we propose a self-supervised zero-shot dehazing network (SZDNet) based on dark channel prior, which uses a hazy image generated from the output dehazed image as a pseudo-label to supervise the optimization process of the network. Additionally, we use a novel multichannel quad-tree algorithm to estimate atmospheric light values, which is more accurate than previous methods. Furthermore, the sum of the cosine distance and the mean squared error between the pseudo-label and the input image is applied as a loss function to enhance the quality of the dehazed image. The most significant advantage of the SZDNet is that it does not require a large dataset for training before performing the dehazing task. Extensive testing shows promising performances of the proposed method in both qualitative and quantitative evaluations when compared with state-of-the-art methods. Graphical Abstract

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Self-supervised zero-shot dehazing network based on dark channel prior

Xiao

Ren

et al. 2023

Front. Optoelectron.

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Song

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Efficient point cloud segmentation approach using energy optimization with geometric features for 3D scene understanding

Cited by 5 publications

References 34 publications

Self-supervised zero-shot dehazing network based on dark channel prior

Self-supervised zero-shot dehazing network based on dark channel prior

Automatic recognition of erosion area on the slope of tailings dam using region growing segmentation algorithm

Contour detection and salient feature line regularization for printed circuit board in point clouds based on geometric primitives

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