Positioning in heterogeneous small cell networks using MDT RF fingerprints

2013 First International Black Sea Conference on Communications and Networking (BlackSeaCom) Pub Date : 2013-07-03 DOI:10.1109/BlackSeaCom.2013.6623395

Riaz Mondal, J. Turkka, T. Ristaniemi, T. Henttonen

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引用次数: 13

Abstract

This paper presents a performance evaluation of Radio Frequency (RF) fingerprinting framework in heterogeneous Long Term Evolution (LTE) networks using Minimization of Drive Testing (MDT) measurements which allow automated construction of extensive RF fingerprint training databases. Fingerprint positioning was studied in heterogeneous small cell and regular macro networks using LTE cell detection performance requirements. Goal was to study how big effect the cell detection requirements have on positioning accuracy in interference limited inter-frequency small cell network deployment. The results show that RF fingerprint performance suffers degraded cell detection performance in fully loaded network deployments and results in lower dimensions of the RF signatures. However, in denser network deployments, the absolute positioning errors remain good being below the E911 emergency positioning requirements. This suggests that in dense small cell networks, MDT training databases can provide a good basis for location assisted Radio Resource Management (RRM) algorithms such as network based proximity detection.

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利用MDT射频指纹在异构小蜂窝网络中定位

本文介绍了在异构长期演进(LTE)网络中使用驱动测试最小化(MDT)测量的射频(RF)指纹识别框架的性能评估，该框架允许自动构建广泛的射频指纹训练数据库。基于LTE小区检测性能要求，研究了异构小小区和规则宏网络下的指纹定位。目的是研究在干扰有限的频间小蜂窝网络部署中，小区检测要求对定位精度的影响有多大。结果表明，在全负载网络部署中，射频指纹性能会降低小区检测性能，导致射频特征的维数降低。然而，在较密集的网络部署中，绝对定位误差仍然很好，低于E911应急定位要求。这表明，在密集的小蜂窝网络中，MDT训练数据库可以为定位辅助无线电资源管理(RRM)算法(如基于网络的接近检测)提供良好的基础。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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2013 First International Black Sea Conference on Communications and Networking (BlackSeaCom)

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