A Centralized Processing Framework for Foliage Penetration Human Tracking in Multistatic Radar

A Centralized Processing Framework for Foliage Penetration Human Tracking in Multistatic Radar

A complete centralized processing framework is proposed for human tracking using multistatic radar in the foliage-penetration environment. The configuration of the multistatic radar system is described. Primary attention is devoted to time of arrival (TOA) estimation and target localization. An impr...

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Bibliographic Details
Main Authors: J. Zhang, T. Jin, Y. He, Z. M. Zhou
Format: Article
Language:English
Published: Spolecnost pro radioelektronicke inzenyrstvi 2016-04-01
Series:Radioengineering
Subjects:
Multistatic radar
foliage penetration
human tracking
TOA estimation
target localization
Online Access:http://www.radioeng.cz/fulltexts/2016/16_01_0098_0105.pdf
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spelling doaj-3293622eda794297911048f4da2a193a2020-11-24T23:16:26ZengSpolecnost pro radioelektronicke inzenyrstviRadioengineering1210-25122016-04-0125198105A Centralized Processing Framework for Foliage Penetration Human Tracking in Multistatic RadarJ. ZhangT. JinY. HeZ. M. ZhouA complete centralized processing framework is proposed for human tracking using multistatic radar in the foliage-penetration environment. The configuration of the multistatic radar system is described. Primary attention is devoted to time of arrival (TOA) estimation and target localization. An improved approach that takes the geometrical center as the TOA estimation of the human target is given. The minimum mean square error paring (MMSEP) approach is introduced for multi-target localization in the multistatic radar system. An improved MMSEP algorithm is proposed using the maximum velocity limitation and the global nearest neighbor criterion, efficiently decreasing the computational cost of MMSEP. The experimental results verify the effectiveness of the centralized processing framework.http://www.radioeng.cz/fulltexts/2016/16_01_0098_0105.pdfMultistatic radarfoliage penetrationhuman trackingTOA estimationtarget localization
collection DOAJ
language English
format Article
sources DOAJ
author J. Zhang
T. Jin
Y. He
Z. M. Zhou
spellingShingle J. Zhang
T. Jin
Y. He
Z. M. Zhou
A Centralized Processing Framework for Foliage Penetration Human Tracking in Multistatic Radar
Radioengineering
Multistatic radar
foliage penetration
human tracking
TOA estimation
target localization
author_facet J. Zhang
T. Jin
Y. He
Z. M. Zhou
author_sort J. Zhang
title A Centralized Processing Framework for Foliage Penetration Human Tracking in Multistatic Radar
title_short A Centralized Processing Framework for Foliage Penetration Human Tracking in Multistatic Radar
title_full A Centralized Processing Framework for Foliage Penetration Human Tracking in Multistatic Radar
title_fullStr A Centralized Processing Framework for Foliage Penetration Human Tracking in Multistatic Radar
title_full_unstemmed A Centralized Processing Framework for Foliage Penetration Human Tracking in Multistatic Radar
title_sort centralized processing framework for foliage penetration human tracking in multistatic radar
publisher Spolecnost pro radioelektronicke inzenyrstvi
series Radioengineering
issn 1210-2512
publishDate 2016-04-01
description A complete centralized processing framework is proposed for human tracking using multistatic radar in the foliage-penetration environment. The configuration of the multistatic radar system is described. Primary attention is devoted to time of arrival (TOA) estimation and target localization. An improved approach that takes the geometrical center as the TOA estimation of the human target is given. The minimum mean square error paring (MMSEP) approach is introduced for multi-target localization in the multistatic radar system. An improved MMSEP algorithm is proposed using the maximum velocity limitation and the global nearest neighbor criterion, efficiently decreasing the computational cost of MMSEP. The experimental results verify the effectiveness of the centralized processing framework.
topic Multistatic radar
foliage penetration
human tracking
TOA estimation
target localization
url http://www.radioeng.cz/fulltexts/2016/16_01_0098_0105.pdf
work_keys_str_mv AT jzhang acentralizedprocessingframeworkforfoliagepenetrationhumantrackinginmultistaticradar
AT tjin acentralizedprocessingframeworkforfoliagepenetrationhumantrackinginmultistaticradar
AT yhe acentralizedprocessingframeworkforfoliagepenetrationhumantrackinginmultistaticradar
AT zmzhou acentralizedprocessingframeworkforfoliagepenetrationhumantrackinginmultistaticradar
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AT tjin centralizedprocessingframeworkforfoliagepenetrationhumantrackinginmultistaticradar
AT yhe centralizedprocessingframeworkforfoliagepenetrationhumantrackinginmultistaticradar
AT zmzhou centralizedprocessingframeworkforfoliagepenetrationhumantrackinginmultistaticradar
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