Efficient content-based image retrieval using integrated dual deep convolutional neural network

Feroza D. Mirajkar, Ruksar Fatima, Dr Shaik A. Qadeer
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Abstract

Content-based image retrieval (CBIR) uses the content features for retrieving and searching the images in a given large database. Earlier, different hand feature descriptor designs are researched based on cues that are visual such as shape, colour, and texture used to represent these images. Although, deep learning technologies have widely been applied as an alternative to designing engineering that is dominant for over a decade. The features are automatically learnt through the data. This research work proposes integrated dual deep convolutional neural network (IDD-CNN), IDD-CNN comprises two distinctive CNN, first CNN exploits the features and further custom CNN is designed for exploiting the custom features. Moreover, a novel directed graph is designed that comprises the two blocks i.e. learning block and memory block which helps in finding the similarity among images; since this research considers the large dataset, an optimal strategy is introduced for compact features. Moreover, IDD-CNN is evaluated considering the two distinctive benchmark datasets the oxford dataset considering mean average precision (mAP) metrics and comparative analysis shows IDD-CNN outperforms the other existing model.
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集成双深度卷积神经网络的高效基于内容的图像检索
基于内容的图像检索(CBIR)利用内容特征对给定的大型数据库中的图像进行检索和搜索。早先,不同的手特征描述符设计是基于视觉线索,如形状、颜色和纹理,用于表示这些图像。尽管如此,深度学习技术作为设计工程的替代方案已经被广泛应用了十多年。通过数据自动学习特征。本研究提出了集成双深度卷积神经网络(IDD-CNN), IDD-CNN包括两个不同的CNN,首先CNN利用自定义特征,然后设计自定义CNN来利用自定义特征。此外,设计了一种新的有向图,该有向图由学习块和记忆块组成,有助于发现图像之间的相似性;由于本研究考虑的是大型数据集,因此引入了紧凑特征的最优策略。此外,考虑两个不同的基准数据集对IDD-CNN进行了评估,牛津数据集考虑了平均平均精度(mAP)指标,对比分析表明IDD-CNN优于其他现有模型。
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