A novel multiscale cGAN approach for enhanced salient object detection in single haze images

IF 2.4 4区 计算机科学 Eurasip Journal on Image and Video Processing Pub Date : 2024-09-15 DOI:10.1186/s13640-024-00648-x
Gayathri Dhara, Ravi Kant Kumar
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Abstract

In computer vision, image dehazing is a low-level task that employs algorithms to analyze and remove haze from images, resulting in haze-free visuals. The aim of Salient Object Detection (SOD) is to locate the most visually prominent areas in images. However, most SOD techniques applied to visible images struggle in complex scenarios characterized by similarities between the foreground and background, cluttered backgrounds, adverse weather conditions, and low lighting. Identifying objects in hazy images is challenging due to the degradation of visibility caused by atmospheric conditions, leading to diminished visibility and reduced contrast. This paper introduces an innovative approach called Dehaze-SOD, a unique integrated model that addresses two vital tasks: dehazing and salient object detection. The key novelty of Dehaze-SOD lies in its dual functionality, seamlessly integrating dehazing and salient object identification into a unified framework. This is achieved using a conditional Generative Adversarial Network (cGAN) comprising two distinct subnetworks: one for image dehazing and another for salient object detection. The first module, designed with residual blocks, Dark Channel Prior (DCP), total variation, and the multiscale Retinex algorithm, processes the input hazy images. The second module employs an enhanced EfficientNet architecture with added attention mechanisms and pixel-wise refinement to further improve the dehazing process. The outputs from these subnetworks are combined to produce dehazed images, which are then fed into our proposed encoder–decoder framework for salient object detection. The cGAN is trained with two modules working together: the generator aims to produce haze-free images, whereas the discriminator distinguishes between the generated haze-free images and real haze-free images. Dehaze-SOD demonstrates superior performance compared to state-of-the-art dehazing methods in terms of color fidelity, visibility enhancement, and haze removal. The proposed method effectively produces high-quality, haze-free images from various hazy inputs and accurately detects salient objects within them. This makes Dehaze-SOD a promising tool for improving salient object detection in challenging hazy conditions. The effectiveness of our approach has been validated using benchmark evaluation metrics such as mean absolute error (MAE), peak signal-to-noise ratio (PSNR), and structural similarity index measure (SSIM).

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用于增强单幅灰霾图像中突出物体检测的新型多尺度 cGAN 方法
在计算机视觉领域,图像去雾是一项低级任务,它采用算法来分析和去除图像中的雾气,从而获得无雾的视觉效果。突出物体检测(SOD)的目的是找出图像中视觉效果最突出的区域。然而,应用于可见光图像的大多数 SOD 技术在前景与背景相似、背景杂乱、天气条件恶劣和光照不足等复杂情况下都难以发挥作用。在朦胧图像中识别物体具有挑战性,因为大气条件会导致能见度下降,从而降低能见度和对比度。本文介绍了一种名为 Dehaze-SOD 的创新方法,这是一种独特的集成模型,可解决去雾和突出物体检测这两项重要任务。Dehaze-SOD 的主要创新点在于其双重功能,它将去光晕和突出物体识别无缝集成到一个统一的框架中。这是通过一个条件生成对抗网络(cGAN)实现的,该网络由两个不同的子网络组成:一个用于图像去毛刺,另一个用于突出物体检测。第一个模块采用残差块、暗通道优先(DCP)、总变化和多尺度 Retinex 算法处理输入的模糊图像。第二个模块采用增强型 EfficientNet 架构,增加了注意力机制和像素细化功能,以进一步改进去雾处理过程。这些子网络的输出结合起来生成去雾图像,然后输入我们提出的编码器-解码器框架,进行突出物体检测。cGAN 的训练由两个模块共同完成:生成器旨在生成无雾霾图像,而鉴别器则对生成的无雾霾图像和真实的无雾霾图像进行鉴别。Dehaze-SOD 在色彩保真度、能见度增强和雾霾去除方面的表现优于最先进的去雾霾方法。所提出的方法能有效地从各种雾霾输入中生成高质量的无雾霾图像,并能准确地检测出图像中的突出物体。这使得 Dehaze-SOD 成为在具有挑战性的雾霾条件下改进突出物体检测的一种有前途的工具。平均绝对误差(MAE)、峰值信噪比(PSNR)和结构相似性指数(SSIM)等基准评估指标验证了我们方法的有效性。
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来源期刊
Eurasip Journal on Image and Video Processing
Eurasip Journal on Image and Video Processing Engineering-Electrical and Electronic Engineering
CiteScore
7.10
自引率
0.00%
发文量
23
审稿时长
6.8 months
期刊介绍: EURASIP Journal on Image and Video Processing is intended for researchers from both academia and industry, who are active in the multidisciplinary field of image and video processing. The scope of the journal covers all theoretical and practical aspects of the domain, from basic research to development of application.
期刊最新文献
Advanced fine-tuning procedures to enhance DNN robustness in visual coding for machines A novel multiscale cGAN approach for enhanced salient object detection in single haze images Optimization of parameters for image denoising algorithm pertaining to generalized Caputo-Fabrizio fractional operator Utility-based performance evaluation of biometric sample quality measures Beyond the visible: thermal data for facial soft biometric estimation
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