Abstract
Device-free localization (DFL) locates targets without being equipped with the attached devices, which is of great significance for intrusion detection or monitoring in the era of the Internet-of-Things (IoT). Aiming at solving the problems of low accuracy and low robustness in DFL approaches, in this paper, we first treat the RSS signal as an RSS-image matrix and conduct a process of eliminating the background to dig out the variation component with distinguished features. Then, we make use of these feature-rich images by formulating DFL as an image classification problem. Furthermore, a deep convolutional neural network (CNN) is designed to extract features automatically for classification. The localization performance of the proposed background elimination-based CNN (BE-CNN) scheme is validated with a real-world dataset of outdoor DFL. In addition, we also validate the robust performance of the proposal by conducting numerical experiments with different levels of noise. Experimental results demonstrate that the proposed scheme has an obvious advantage in terms of improving localization accuracy and robustness for DFL. Particularly, the BE-CNN can maintain the highest localization accuracy of 100%, even in noisy conditions when the SNR is over −5 dB. The BE-based methods can outperform all the corresponding raw data-based methods in terms of the localization accuracy. In addition, the proposed method can outperform the comparison methods, deep neural network with autoencoder, K-nearest-neighbor (KNN), support vector machines (SVM), etc., in terms of the localization accuracy and robustness.
Highlights
Wireless technologies have attracted tremendous attention in intrusion detection in the past few years [1,2,3,4]
Based on analyzing the RSS matrices derived by the target in different locations, the background elimination (BE)-convolutional neural network (CNN) scheme was proposed for improving the robustness and localization accuracy
Among the 30 experiments, the based CNN (BE-CNN) could always accurately locate the target with accuracy of 100%, which is obviously higher than 88.9%, which was the average accuracy obtained by the BE-support vector machines (SVM)
Summary
Wireless technologies have attracted tremendous attention in intrusion detection in the past few years [1,2,3,4]. Research [14,15] has shown that the received-signal-strength (RSS) or the channel-state-information (CSI) can be used in the DFL problem, as it is affected differently by human movements and acquired This means that if the targets enter the monitoring area of the DFL system or change their locations, they will derive specific wireless signals, i.e., RSS matrices (here, we take the RSS signal as an example). The corresponding relationship of the location-RSS is not accessible directly To solve this problem, many previous research works regarded the DFL problem as a classification problem, arranged the collected wireless signals into vectors, and employed the machine learning methods [16,17] to extract features for classification.
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