An Ultra-Wideband System for Vehicle Positioning

Journal title

International Journal of Electronics and Telecommunications




vol. 56


No 3


Divisions of PAS

Nauki Techniczne


Polish Academy of Sciences Committee of Electronics and Telecommunications




DOI: 10.2478/v10177-010-0032-1 ; eISSN 2300-1933 (since 2013) ; ISSN 2081-8491 (until 2012)


International Journal of Electronics and Telecommunications; 2010; vol. 56; No 3


Commission of the European Communities, "Commission Decision 2007/131/EC on allowing the use of the radio spectrum for equipment using ultra-wideband technology in a harmonized manner in the Community," Brussels, 21 Feb., 2007. ; Commission of the European Communities, "Commission Decision 2009/343/EC amending Decision 2007/131/EC" Brussels, 21 Apr. 2009. ; Fang B. (1990), Simple solutions for hyperbolic and related position fixes, IEEE Transactions on Aerospace and Electronic Systems, 26, 748. ; Federal Communications Commission (FCC), "Revision of Part 15 of the Commission's rules regarding ultra-wideband transmission systems," <i>First Report and Order</i>, ET-Docket 98-153, FCC 02-48, 14 Feb. 2002. ; Fernandez-Madrigal J. (2007), Application of UWB and GPS technologies for vehicle localization in combined indoor-outdoor environments, null, 1. ; Foy W. (1976), Position-location solution by Taylor-series estimation, IEEE Transactions on Aerospace and Electronic Systems, AES-12, 187. ; Kolakowski J. (2009), Application of Time to Digital Converter In I-UWB Positioning System Receiver, null, 366. ; Kolakowski J. (2009), A Reduction of Systematic Errors In the UWB Positioning System, null. ; Neering J. (2008), Optimal sensor configuration for passive position estimation, null, 951. ; Oppermann I. (2004), UWB Theory and Applications. ; Ray P. (2000), Optimal configuration of receivers in an ultrasonic 3D position estimation system by using genetic algorithms, null, 4, 2902. ; Reed J. (2005), An Introduction to Ultra Wideband Communication Systems. ; Rydstrom M. (2007), An Approach to Positioning Road-Users in a Telematics Network, null, 335. ; Sahinoglu Z. (2008), Ultra-wideband Positioning Systems: Theoretical Limits, Ranging Algorithms, and Protocols, ; Schlingelhof M. (2008), Advanced positioning technologies for co-operative systems, IET Intelligent Transportation Systems, 2, 81. ; <i>Consolidation Report of User Needs and Requirements for Positioning, Local Dynamic Maps and Vehicular Ad Hoc Networks</i>, D3.2.3 SINTECH deliverable. V.2.0, 26 Oct. 2006. ; Skog I. (2009), In-Car Positioning and Navigation Technologies - A Survey, IEEE Transactions on Intelligent Transportation Systems, ITS-10. ; Smith J. (1987), The spherical interpolation method of source localization, IEEE Journal of Oceanic Engineering, 12, 246. ; Taylor J. (1997), An Introduction to Error Analysis, The Study of Uncertainties in Physical Measurements. ; Torrieri D. (1984), Statistical Theory of Passive Location Systems, IEEE Transactions on Aerospace and Electronic Systems, 20, 183. ; Yem Van Vu (2006), Digital and Super-Resolution Ultra Wideband Inter-Vehicle Localization System, null, 446. ; Vivo G. (2007), The European Integrated Project "SAFESPOT" - How ADAS applications co-operate for the driving safety, null, 624. ; Series 7000 Real Time Location System - application notes. Available: <a target="_blank" href=''></a> ; Sapphire Ultra-Wideband Technology Real Time Locating System - application notes. Available: <a target="_blank" href=''></a>