基于智能城市接收信号强度测量的约束最小二乘定位

IF 4.9 3区计算机科学 Q1 COMPUTER SCIENCE, HARDWARE & ARCHITECTURE

Computers & Electrical Engineering Pub Date : 2025-08-02 DOI:10.1016/j.compeleceng.2025.110564

Bamrung Tausiesakul , Emanuele Goldoni , Pietro Savazzi

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引用次数: 0

摘要

全球定位系统（GPS）对于许多物联网应用至关重要，但容易受到欺骗和干扰攻击，从而导致错误的位置和定时信息。本文提出了一种利用无线网络接收到的信号强度（RSS）作为一种低成本替代方案的gps妥协检测和定位方法。虽然RSS测量本身就有噪声，但如果处理得当，它们可以提供有用的位置估计。我们利用有噪声的RSS数据提出了一个定位问题，并提出了基于约束最小二乘（CLS）准则的三种估计方法。还推导了均方误差的cram r - rao下界，以评价性能极限。基于LoRaWAN真实数据的仿真表明，尽管计算成本较高，但所提出的CLS方法的估计误差（以均方根误差衡量）低于传统的最小二乘法。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

Localization based on received signal strength measurement in smart cities using constrained least squares

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Localization based on received signal strength measurement in smart cities using constrained least squares

The global positioning system (GPS) is essential for many internet-of-things applications but is vulnerable to spoofing and jamming attacks that can lead to incorrect location and timing information. This paper proposes a GPS-compromise detection and localization method using received signal strength (RSS) from wireless networks as a low-cost alternative. Although RSS measurements are inherently noisy, they can provide useful location estimates when processed effectively. We formulate a localization problem using noisy RSS data and propose three estimation methods based on a constrained least squares (CLS) criterion. The Cramér–Rao lower bound for mean squared error is also derived to evaluate the performance limits. Simulations based on real-world LoRaWAN data show that the proposed CLS methods achieve lower estimation error, measured by root mean squared error, than the conventional least squares method, albeit at a higher computational cost.

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来源期刊

Computers & Electrical Engineering 工程技术-工程：电子与电气

CiteScore

9.20

自引率

7.00%

发文量

661

审稿时长

47 days

期刊介绍： The impact of computers has nowhere been more revolutionary than in electrical engineering. The design, analysis, and operation of electrical and electronic systems are now dominated by computers, a transformation that has been motivated by the natural ease of interface between computers and electrical systems, and the promise of spectacular improvements in speed and efficiency. Published since 1973, Computers & Electrical Engineering provides rapid publication of topical research into the integration of computer technology and computational techniques with electrical and electronic systems. The journal publishes papers featuring novel implementations of computers and computational techniques in areas like signal and image processing, high-performance computing, parallel processing, and communications. Special attention will be paid to papers describing innovative architectures, algorithms, and software tools.