Neural-Network-Assisted UE Localization Using Radio-Channel Fingerprints in LTE Networks

Neural-Network-Assisted UE Localization Using Radio-Channel Fingerprints in LTE Networks

In this paper, a novel fingerprint-based localization technique is proposed, which is applicable for positioning user equipments (UEs) in cellular communication networks such as the long-term-evolution (LTE) system. This technique utilizes a unique mapping between the characteristics of a radio chan...

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Main Authors: Xiaokang Ye, Xuefeng Yin, Xuesong Cai, Antonio Perez Yuste, Hongliang Xu
Format: Article
Language:English
Published: IEEE 2017-01-01
Series:IEEE Access
Subjects:
Long-term-evolution
fingerprint
radio propagation
channel impulse response
multipath component
feature extraction
Online Access:https://ieeexplore.ieee.org/document/7938617/
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spelling doaj-e6514522fba1460280371788d5fd76aa2021-03-29T20:05:26ZengIEEEIEEE Access2169-35362017-01-015120711208710.1109/ACCESS.2017.27121317938617Neural-Network-Assisted UE Localization Using Radio-Channel Fingerprints in LTE NetworksXiaokang Ye0https://orcid.org/0000-0003-0902-7464Xuefeng Yin1https://orcid.org/0000-0001-7216-8994Xuesong Cai2Antonio Perez Yuste3Hongliang Xu4College of Electronics and Information Engineering, Tongji University, Shanghai, ChinaCollege of Electronics and Information Engineering, Tongji University, Shanghai, ChinaCollege of Electronics and Information Engineering, Tongji University, Shanghai, ChinaSchool of Telecommunications Engineering, Technical University of Madrid, Madrid, SpainShanghai Radio Monitoring Station, Shanghai, ChinaIn this paper, a novel fingerprint-based localization technique is proposed, which is applicable for positioning user equipments (UEs) in cellular communication networks such as the long-term-evolution (LTE) system. This technique utilizes a unique mapping between the characteristics of a radio channel formulated as a fingerprint vector and a geographical location. A feature-extraction algorithm is applied to selecting channel parameters with non-redundant information that are calculated from the LTE down-link signals. A feedforward neural network with the input of fingerprint vectors and the output of UEs' known locations is trained and used by UEs to estimate their positions. The results of experiments conducted in an in-service LTE system demonstrate that by using only one LTE eNodeB, the proposed technique yields a median error distance of 6 and 75 meters in indoor and outdoor environments, respectively. This localization technique is applicable in the cases where the Global Navigation Satellite System (GNSS) is unavailable, e.g., in indoor environments or in dense-urban scenarios with closely spaced skyscrapers heavily blocking the line-of-sight paths between a UE and GNSS satellites.https://ieeexplore.ieee.org/document/7938617/Long-term-evolutionfingerprintradio propagationchannel impulse responsemultipath componentfeature extraction
collection DOAJ
language English
format Article
sources DOAJ
author Xiaokang Ye
Xuefeng Yin
Xuesong Cai
Antonio Perez Yuste
Hongliang Xu
spellingShingle Xiaokang Ye
Xuefeng Yin
Xuesong Cai
Antonio Perez Yuste
Hongliang Xu
Neural-Network-Assisted UE Localization Using Radio-Channel Fingerprints in LTE Networks
IEEE Access
Long-term-evolution
fingerprint
radio propagation
channel impulse response
multipath component
feature extraction
author_facet Xiaokang Ye
Xuefeng Yin
Xuesong Cai
Antonio Perez Yuste
Hongliang Xu
author_sort Xiaokang Ye
title Neural-Network-Assisted UE Localization Using Radio-Channel Fingerprints in LTE Networks
title_short Neural-Network-Assisted UE Localization Using Radio-Channel Fingerprints in LTE Networks
title_full Neural-Network-Assisted UE Localization Using Radio-Channel Fingerprints in LTE Networks
title_fullStr Neural-Network-Assisted UE Localization Using Radio-Channel Fingerprints in LTE Networks
title_full_unstemmed Neural-Network-Assisted UE Localization Using Radio-Channel Fingerprints in LTE Networks
title_sort neural-network-assisted ue localization using radio-channel fingerprints in lte networks
publisher IEEE
series IEEE Access
issn 2169-3536
publishDate 2017-01-01
description In this paper, a novel fingerprint-based localization technique is proposed, which is applicable for positioning user equipments (UEs) in cellular communication networks such as the long-term-evolution (LTE) system. This technique utilizes a unique mapping between the characteristics of a radio channel formulated as a fingerprint vector and a geographical location. A feature-extraction algorithm is applied to selecting channel parameters with non-redundant information that are calculated from the LTE down-link signals. A feedforward neural network with the input of fingerprint vectors and the output of UEs' known locations is trained and used by UEs to estimate their positions. The results of experiments conducted in an in-service LTE system demonstrate that by using only one LTE eNodeB, the proposed technique yields a median error distance of 6 and 75 meters in indoor and outdoor environments, respectively. This localization technique is applicable in the cases where the Global Navigation Satellite System (GNSS) is unavailable, e.g., in indoor environments or in dense-urban scenarios with closely spaced skyscrapers heavily blocking the line-of-sight paths between a UE and GNSS satellites.
topic Long-term-evolution
fingerprint
radio propagation
channel impulse response
multipath component
feature extraction
url https://ieeexplore.ieee.org/document/7938617/
work_keys_str_mv AT xiaokangye neuralnetworkassisteduelocalizationusingradiochannelfingerprintsinltenetworks
AT xuefengyin neuralnetworkassisteduelocalizationusingradiochannelfingerprintsinltenetworks
AT xuesongcai neuralnetworkassisteduelocalizationusingradiochannelfingerprintsinltenetworks
AT antonioperezyuste neuralnetworkassisteduelocalizationusingradiochannelfingerprintsinltenetworks
AT hongliangxu neuralnetworkassisteduelocalizationusingradiochannelfingerprintsinltenetworks
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