基于多特征融合和卷积神经网络的图像语义分割

IF 0.9 4区 工程技术 Q4 COMPUTER SCIENCE, HARDWARE & ARCHITECTURE
Zhenyu Wang, Juan Xiao, Shuai Zhang, Baoqiang Qi
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引用次数: 0

摘要

图像语义分割技术是计算机视觉领域的核心研究内容之一。随着计算机性能的提高和深度学习技术的不断发展,研究图像语义分割的实际效果和性能的热情越来越高。深度语义分割的结果可以让计算机对图像有更详细、更准确的理解,在自动驾驶、智能安防、医疗成像、遥感图像等领域有着广泛的应用需求。然而,现有的图像语义分割算法存在结果容易不连续、预测精度不足的缺点。本文以基于深度学习的图像语义分割技术为研究对象,探索图像语义分割算法的改进及其在道路场景中的应用。首先,本文提出了基于残差融合和多尺度上下文信息的MCU-Net方法。MCU-Net采用残差融合模块加深网络结构,提高U-Net获取更深层次特征的能力。然后在不同层次之间构建自顶向下和自底向上的特征信息路径,通过融合不同层次的特征,充分利用网络中浅层和深层特征所包含的空间和语义信息。此外,对于相同级别之间的特征信息,增加了增强的空洞空间金字塔池化模块,使输出的特征具有更大范围的语义信息。其次,提出了基于注意机制的DAMCU-Net方法和基于MCU-Net的边缘检测方法。DAMCU-Net通过注意机制优化模块提取全局上下文信息,同时利用密集跳连接融合特征,使网络在上采样时能够恢复更多的空间细节信息,并利用FReLU激活函数提高网络对复杂目标的分割能力。对于特征提取过程中丢失的边缘信息,加入边缘检测分支,通过特征融合对主路径的特征信息进行补充,实现边缘信息的优化。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Semantic Segmentation of Images Based on Multi-Feature Fusion and Convolutional Neural Networks
Image semantic segmentation technology is one of the core research contents in the field of computer vision. With the improvement of computer performance and the continuous development of deep learning technology, researchers have more and more enthusiasm to study the actual effect and performance of image semantic segmentation. The results of deep semantic segmentation allow computers to have a more detailed and accurate understanding of images, and have a wide range of application needs in the fields of autonomous driving, intelligent security, medical imaging, remote sensing images, etc. However, the existing image semantic segmentation algorithms have the disadvantages of easy discontinuous results and insufficient prediction accuracy. In this paper, we take deep learning-based image semantic segmentation technology as the research object to explore the improvement of the image semantic segmentation algorithm and its application in road scenarios. First, this paper proposes MCU-Net method based on residual fusion and multi-scale contextual information. MCU-Net uses residual fusion module to deepen the network structure and improve the ability of U-Net to acquire deeper features. Then a top-down and bottom-up path is constructed for feature information between different levels, and the spatial and semantic information contained in shallow and deep features in the network is fully utilized by fusing features from different levels. In addition, an enhanced void space pyramid pooling module is added for feature information between the same levels, which enables the output features to have a larger range of semantic information. Second, this paper proposes the DAMCU-Net method based on attention mechanism and edge detection based on MCU-Net. DAMCU-Net extracts global contextual information by the attention mechanism optimization module, while fusing features using dense jump connections to facilitate the network to recover more spatial detail information during upsampling, and uses the FReLU activation function to improve the segmentation capability of the network for complex targets. For the edge information lost in the feature extraction process, the edge detection branch is added to supplement the feature information of the main path by feature fusion to achieve the optimization of the edge information.
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来源期刊
Journal of Circuits Systems and Computers
Journal of Circuits Systems and Computers 工程技术-工程:电子与电气
CiteScore
2.80
自引率
26.70%
发文量
350
审稿时长
5.4 months
期刊介绍: Journal of Circuits, Systems, and Computers covers a wide scope, ranging from mathematical foundations to practical engineering design in the general areas of circuits, systems, and computers with focus on their circuit aspects. Although primary emphasis will be on research papers, survey, expository and tutorial papers are also welcome. The journal consists of two sections: Papers - Contributions in this section may be of a research or tutorial nature. Research papers must be original and must not duplicate descriptions or derivations available elsewhere. The author should limit paper length whenever this can be done without impairing quality. Letters - This section provides a vehicle for speedy publication of new results and information of current interest in circuits, systems, and computers. Focus will be directed to practical design- and applications-oriented contributions, but publication in this section will not be restricted to this material. These letters are to concentrate on reporting the results obtained, their significance and the conclusions, while including only the minimum of supporting details required to understand the contribution. Publication of a manuscript in this manner does not preclude a later publication with a fully developed version.
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