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Indoor Parking Facilities Management Based on RFID CoO Positioning in Combination with Wi-Fi and UWB (8576)

Vassilis Gikas, Harris Perakis, Allison Kealy (Australia), Guenther Retscher (Austria), Constantinos Antoniou (Germany) and Thanassis Mpimis (Greece)
Dr. Vassilis Gikas
Asssociate Professor
National Technical University of Athens
School of Rural and Surveying Engineering
9 I. Polytechniou Str, Zographos, Athens
Athens
15780
Greece
 
Corresponding author Dr. Vassilis Gikas (email: vgikas[at]central.ntua.gr, tel.: 00302107723566)
 

[ abstract ] [ paper ] [ handouts ]

Published on the web 2017-03-10
Received 2016-10-01 / Accepted 2017-02-01
This paper is one of selection of papers published for the FIG Working Week 2017 in Helsinki, Finland and has undergone the FIG Peer Review Process.

FIG Working Week 2017
ISBN 978-87-92853-61-5 (Online) ISBN 978-87-92853-62-2 (Printed)
ISSN 2307-4086
https://www.fig.net/resources/proceedings/fig_proceedings/fig2017/index.htm

Abstract

The advantage for the development of a positioning solution for indoor parking facilities management relates to the fixed geometric constraints imposed by man-made structures, the minimal weather influences and the low vehicle dynamics. Furthermore, easy access to commodities such as electrical supply and internet can facilitate further the use of alternative localization procedures. Notwithstanding, other factors, including the severe multipath conditions and the high attenuation and signal scattering effects, as well as the extended non-line-of-sight (NLoS) conditions make the positioning problem a difficult and case dependent task. This study offers a low-cost positioning solution to the problem relying primarily on the RFID Cell of Origin (CoO) technique resulting in to a discrete point vehicle trajectory. Then, Wi-Fi Receiver Signal Strength (RSS) observations act as a supplement to fill in the gaps and refine the final continuous vehicle trajectory. Also, this study introduces the concept of using UWB technology as a means of supporting the RFID/Wi-Fi solution through dedicated check points of higher positioning accuracy given its high accuracy potential and the continuously decreasing system cost. A number of tests have been undertaken to examine the validity and the potential of this approach and preliminary results of the analyses are presented. It could be proven that all major user requirements (i.e., positioning accuracy, availability, continuity) are being met.
 
Keywords: Positioning; Low cost technology; indoor parking facilities management, integrated positioning, RFID, Wi-Fi, UWB

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