Your search keyword '"multipath exploitation"' showing total 4 results

1. Radar Target Localization with Multipath Exploitation in Dense Clutter Environments.

Author

Ding, Rui, Wang, Zhuang, Jiang, Libing, and Zheng, Shuyu

Subjects

RADAR targets, RAY tracing algorithms, STANDARD deviations, LOCALIZATION (Mathematics)

Abstract

The performance of classic radar geometry based on the line-of-sight (LOS) signal transmitted from radar to the target in the free space is affected by multipath echoes in urban areas, where non-line-of-sight (NLOS) signals reflected by obstacles are received by the radar. Based on prior information of the urban situation, this article proposes a novel two-stage localization algorithm with multipath exploitation in a dense clutter environment. In the offline stage, multipath propagation parameters of uniformly distributed samples in the radar field of view are predicted by the ray-tracing technique. In the online stage, a rough location of the target is estimated by the maximum similarity between measurements and the predicted parameters of reference samples at different locations. The similarity is described by the likelihood between measurements and the predicted multipath parameters with respect to all possible associated hypotheses. A gating threshold is derived to exclude less likely hypotheses and reduce the computational burden. The accurate target location is acquired by a non-linear least squares (NLS) optimization of the associated multipath components. Simulation results in various noise conditions show that the proposed method provides robust and accurate target localization results under dense clutter conditions, and the offline pre-calculation of ray-tracing ensures the real-time performance of the proposed localization algorithm. The root mean square error (RMSE) of simulation results shows the advantage of the proposed method over the existing method. The presented results suggest that the proposed method can be applied to NLOS target localization applications in complex environments. [ABSTRACT FROM AUTHOR]

Published

2023

2. Millimeter-Wave Radar Localization Using Indoor Multipath Effect.

Author

Hao, Zhanjun, Yan, Hao, Dang, Xiaochao, Ma, Zhongyu, Jin, Peng, and Ke, Wenze

Subjects

*LOCALIZATION (Mathematics), *ELECTRONIC equipment, *HUMAN-computer interaction, *USER experience, *PROCESS mining

Abstract

The positioning of indoor electronic devices is an essential part of human–computer interaction, and the accuracy of positioning affects the level of user experience. Most existing methods for RF-based device localization choose to ignore or remove the impact of multipath effects. However, exploiting the multipath effect caused by the complex indoor environment helps to improve the model's localization accuracy. In response to this question, this paper proposes a multipath-assisted localization (MAL) model based on millimeter-wave radar to achieve the localization of indoor electronic devices. The model fully considers the help of the multipath effect when describing the characteristics of the reflected signal and precisely locates the target position by using the MAL area formed by the reflected signal. At the same time, for the situation where the radar in the traditional Single-Input Single-Output (SISO) mode cannot obtain the 3D spatial position information of the target, the advantage of the MAL model is that the 3D information of the target can be obtained after the mining process of the multipath effect. Furthermore, based on the original hardware, it can achieve a breakthrough in angular resolution. Experiments show that our proposed MAL model enables the millimeter-wave multipath positioning model to achieve a 3D positioning error within 15 cm. [ABSTRACT FROM AUTHOR]

Published

2022

3. Multiple Targets Localization Behind L-Shaped Corner via UWB Radar.

Author

Li, Songlin, Guo, Shisheng, Chen, Jiahui, Yang, Xiaqing, Fan, Shihao, Jia, Chao, Cui, Guolong, and Yang, Haining

Subjects

*ULTRA-wideband radar, *MULTICHANNEL communication, *BISTATIC radar, *SIGNAL processing, *RADAR, *LOCALIZATION (Mathematics), *RADAR antennas

Abstract

This paper deals with the multiple targets localization problem via multi-channel ultra-wideband (UWB) imaging radar non-line-of-sight (NLOS) signal processing. A novel matching-based radar imaging algorithm is proposed to obtain the positions of multiple targets in the L-shaped corner scenario with complex multipath ghost signals. Firstly, a multipath propagation model for the multiple targets scenario is established. Then the positions of the actual multipath ghosts are extracted from the radar image, and the candidate targets corresponding to these multipath ghosts are derived. Secondly, the ellipse-cross-localization method is proposed to obtain the positions of the candidate multipath ghosts, followed by two defined matching factors to measure the similarity between actual and candidate multipath ghosts. According to the similarity, decision rules are designed to determine the actual targets. Compared with the localization algorithm based on one-dimensional range profile, the proposed algorithm can effectively cope with the cases of multiple targets, even in the cases of rough walls and noise. Finally, simulations and experimental data are used to validate the effectiveness of the proposed algorithm. [ABSTRACT FROM AUTHOR]

Published

2021

4. Detection–Localization Algorithms in the Around-the-Corner Radar Problem.

Author

Thai, Khac-Phuc-Hung, Rabaste, Olivier, Bosse, Jonathan, Poullin, Dominique, Saenz, Israel D. Hinostroza, Letertre, Thierry, and Chonavel, Thierry

Subjects

*RADAR, *LOCALIZATION (Mathematics), *MATCHED filters, *ALGORITHMS, *DOPPLER effect, *MIMO radar, URBAN ecology (Sociology)

Abstract

Detection and localization in urban environments is a very recent radar problem. In this paper, we investigate the possibility of detecting and locating targets not in direct line of sight (NLOS) areas with a single portable radar by exploiting multipath returns. We propose two algorithms, which handle the information provided by multipath returns in different ways to detect and estimate the NLOS target position. We also present an original method to select the number of paths to take into account in the algorithms in order to maximize detection probabilities. Numerical results show good efficiency of the proposed algorithms for problems of both detection and localization. We show that applying these algorithms improves detection performance compared to a classic matched filter in a typical urban scenario. Experimental results on a real dataset allow us to validate our multipath model in urban environments, and in particular to show that it is possible to retrieve the target location even with rough knowledge of the scene geometry. [ABSTRACT FROM AUTHOR]

Published

2019