AI-based indoor localization using mmWave MIMO channel at 60 GHz

ITU Journal on Future and Evolving Technologies Pub Date : 2022-09-22 DOI:10.52953/aorf8087

Shubham Khunteta, Ashok Kumar Reddy, Avani Agrawal

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引用次数: 1

Abstract

In recent years, indoor localization using wireless systems has been an important area of research for its applications towards health, security and the tracking of users. A Global Positioning System (GPS) is considered as the best solution for localization for outdoor scenarios but it fails to provide accurate positioning for indoor scenarios. Wi-Fi fingerprinting methods using received signal strength from multiple access points are popular for solving indoor localization problem. As the wireless systems move towards higher frequencies, higher bandwidth and a large antenna array, sensing has also become feasible along with communication, which is an important research area towards 6G named as Integrated Communication And Sensing (ISAC). ISAC relies on sensing parameter estimations, such as estimation of fine range, Doppler and angular information which contains the signature of the surrounding objects. A localization problem can be solved by analysing the sensing parameters. In this paper, we propose a solution for the localization problem for IEEE 802.11ay WLAN systems based on signal processing and Machine Learning (ML) in indoor scenarios. (...)

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基于人工智能的室内定位，使用60 GHz毫米波MIMO信道

近年来，利用无线系统进行室内定位在健康、安全和用户跟踪等方面的应用已成为一个重要的研究领域。全球定位系统(GPS)被认为是室外场景定位的最佳解决方案，但它无法提供室内场景的准确定位。利用来自多个接入点的接收信号强度进行Wi-Fi指纹识别是解决室内定位问题的常用方法。随着无线系统向更高频率、更高带宽和大天线阵列的方向发展，传感也随着通信的发展而变得可行，这是6G的一个重要研究领域，称为集成通信与传感(ISAC)。ISAC依赖于感知参数的估计，如精细距离、多普勒和包含周围物体特征的角度信息的估计。通过分析传感参数可以解决定位问题。在本文中，我们提出了一种基于信号处理和机器学习(ML)的室内场景下IEEE 802.11ay WLAN系统定位问题的解决方案。（…）

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ITU Journal on Future and Evolving Technologies

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