Abstract
With the improvement of various space-satellite shooting methods, the sources, scenes, and quantities of remote sensing data are also increasing. An effective and fast remote sensing image retrieval method is necessary, and many researchers have conducted a lot of work in this direction. Nevertheless, a fast retrieval method called hashing retrieval is proposed to improve retrieval speed, while maintaining retrieval accuracy and greatly reducing memory space consumption. At the same time, proxy-based metric learning losses can reduce convergence time. Naturally, we present a proxy-based hash retrieval method, called DHPL (Deep Hashing using Proxy Loss), which combines hash code learning with proxy-based metric learning in a convolutional neural network. Specifically, we designed a novel proxy metric learning network, and we used one hash loss function to reduce the quantified losses. For the University of California Merced (UCMD) dataset, DHPL resulted in a mean average precision (mAP) of up to 98.53% on 16 hash bits, 98.83% on 32 hash bits, 99.01% on 48 hash bits, and 99.21% on 64 hash bits. For the aerial image dataset (AID), DHPL achieved an mAP of up to 93.53% on 16 hash bits, 97.36% on 32 hash bits, 98.28% on 48 hash bits, and 98.54% on 64 bits. Our experimental results on UCMD and AID datasets illustrate that DHPL could generate great results compared with other state-of-the-art hash approaches.
Highlights
The number of remote sensing images is increasing due to increases in observation and storage capacity [1]
We give the experimental results on the University of California Merced (UCMD) and the aerial image dataset (AID), respectively, and analyze the obtained results so as to explain the effect of the DHPL method
In order to estimate the effectiveness of our DHPL method, we listed some state-of-the-art methods, including Deep hashing convolutional neural networks (DHCNN) [39], deep hashing neural network (DHNN)-L2 [37], DPSH [4], kernel-based supervised hashing (KSH) [31], iterative quantization (ITQ) [26], SELVE [30], Density sensitive hashing (DSH) [41], and spectral hashing (SH) [25]
Summary
The number of remote sensing images is increasing due to increases in observation and storage capacity [1]. Remote sensing images have a lot of difficulty being processed because they contain a large number of geographical regions and regional semantic examples [2,3,4,5,6]. Many image processing studies focus on remote sensing images. Image retrieval on remote sensing images [7,8,9] mainly focuses on research content. Most researchers in image retrieval focus on improving retrieval efficiency and accuracy. This is the biggest difficulty in the retrieval direction of remote sensing images, because these images include a large range of geographical landmarks and fine-grained content differentiation
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