克服多基地目标定位中未知测量噪声功率的循环最小化和联合估计算法

IF 0.5 4区 工程技术 Q4 ENGINEERING, ELECTRICAL & ELECTRONIC
Jing Yang, Chengcheng Liu, Jie Huang, HU Dexiu, Chuang Zhao
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引用次数: 0

摘要

本文研究了使用包括到达角(AOA)、时间延迟(TD)和多普勒频移(DS)在内的测量来定位多基地目标的问题。我们深入研究了一种实际驱动的非理想定位场景,其中测量噪声功率仍然未知。提出了一种联合估计目标定位速度和测量噪声功率的算法。最初,根据最大似然估计准则开发了联合估计的优化模型。随后,我们循环最小化优化模型,以产生目标位置速度和测量噪声功率的估计。还导出了这种联合估计的Cramér-Rao下界(CRLB)。与现有算法相反,我们提出的方法不需要测量噪声功率的先验知识,同时估计目标位置速度和测量噪声功率。仿真结果表明,我们的算法具有优越的定位精度,特别是在测量噪声功率未知的情况下。此外,在中等噪声水平下,该算法对目标位置速度和测量噪声功率的估计精度满足CRLB。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Overcoming Unknown Measurement Noise Powers in Multistatic Target Localization: A Cyclic Minimization and Joint Estimation Algorithm
. This paper investigates the issue of multistatic target localization using measurements including angle of arrival (AOA), time delay (TD), and Doppler shift (DS). We delve into a practically driven nonideal localization scenario where the measurement noise powers remain unknown. An algorithm that jointly estimates target posi-tion-velocity and measurement noise powers is proposed. Initially, an optimization model for the joint estimation is developed following the maximum likelihood estimation criterion. Subsequently, we cyclically minimize the optimization model to yield estimates for target position-velocity and measurement noise powers. The Cramér-Rao lower bound (CRLB) for this joint estimation is also derived. Contrary to existing algorithms, our proposed method eliminates the need for prior knowledge of measurement noise powers, simultaneously estimating the target posi-tion-velocity and measurement noise powers. Simulation results indicate superior localization accuracy with our algorithm, particularly in scenarios with unknown measurement noise powers. Furthermore, at moderate noise levels, the algorithm's estimation accuracy for target posi-tion-velocity and measurement noise powers meets the CRLB.
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来源期刊
Radioengineering
Radioengineering 工程技术-工程:电子与电气
CiteScore
2.00
自引率
9.10%
发文量
0
审稿时长
5.7 months
期刊介绍: Since 1992, the Radioengineering Journal has been publishing original scientific and engineering papers from the area of wireless communication and application of wireless technologies. The submitted papers are expected to deal with electromagnetics (antennas, propagation, microwaves), signals, circuits, optics and related fields. Each issue of the Radioengineering Journal is started by a feature article. Feature articles are organized by members of the Editorial Board to present the latest development in the selected areas of radio engineering. The Radioengineering Journal makes a maximum effort to publish submitted papers as quickly as possible. The first round of reviews should be completed within two months. Then, authors are expected to improve their manuscript within one month. If substantial changes are recommended and further reviews are requested by the reviewers, the publication time is prolonged.
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