Image Feature Fusion Method Based on Edge Detection

IF 2 4区计算机科学 Q3 AUTOMATION & CONTROL SYSTEMS

Information Technology and Control Pub Date : 2023-03-28 DOI:10.5755/j01.itc.52.1.31549

Feng Li, Xuehui Du, Liu Zhang, Aodi Liu

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引用次数: 2

Abstract

Deep learning-based image processing algorithms have developed rapidly in the past decade and have shown significant improvements to extract image features when both sufficient computing power and big data are accessible. Thus, rapid advances in applications such as facial recognition and autonomous driving have been one of the implementation areas. On the other hand, edges as a low-level prevalence feature in images with independent semantics are practically adapted to attain better outcomes. However, neural network-based image feature extraction focusing on texture rather than shape leads to insufficient accuracy. To address this issue, an edge feature extraction method utilizing both conventional operators such as HDE and Sobel and a deep learning-based method is proposed to classify and retrieve images with better accuracy outcomes. By doing so, a large amount of data needed to conduct deep learning-based methods is decreased, the transferability of the model is achieved, classification and retrieval accuracies are enhanced, and the data is compressed. All these better results are attained with benchmark data sets. As a result, all these are achieved by proposing a novel method.

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基于边缘检测的图像特征融合方法

在过去的十年中，基于深度学习的图像处理算法发展迅速，在足够的计算能力和大数据可用的情况下，在提取图像特征方面取得了显著的进步。因此，面部识别和自动驾驶等应用的快速发展已成为实施领域之一。另一方面，在具有独立语义的图像中，边缘作为一种低水平的流行特征在实践中被适应以获得更好的结果。然而，基于神经网络的图像特征提取侧重于纹理而非形状，导致提取精度不足。为了解决这一问题，提出了一种利用传统算子(如HDE和Sobel)和基于深度学习的方法进行边缘特征提取的方法，以获得更好的图像分类和检索结果。通过这样做，减少了进行基于深度学习的方法所需的大量数据，实现了模型的可移植性，提高了分类和检索精度，并对数据进行了压缩。所有这些更好的结果都是通过基准数据集获得的。因此，所有这些都是通过提出一种新的方法来实现的。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Information Technology and Control 工程技术-计算机：人工智能

CiteScore

2.70

自引率

9.10%

发文量

审稿时长

12 months

期刊介绍： Periodical journal covers a wide field of computer science and control systems related problems including: -Software and hardware engineering; -Management systems engineering; -Information systems and databases; -Embedded systems; -Physical systems modelling and application; -Computer networks and cloud computing; -Data visualization; -Human-computer interface; -Computer graphics, visual analytics, and multimedia systems.