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http://dx.doi.org/10.12815/kits.2018.17.5.188

Development of Lane-level Dynamic Location Referencing Method  

Yang, Inchul (Integrated Road Management Center, Dept. of Infrastructure Safety Research, KICT)
Jeon, Woo Hoon (Integrated Road Management Center, Dept. of Infrastructure Safety Research, KICT)
Publication Information
The Journal of The Korea Institute of Intelligent Transport Systems / v.17, no.5, 2018 , pp. 188-199 More about this Journal
Abstract
In this study a novel dynamic lane-level location referencing method(LLRM) was developed. The terminologies were defined and the prerequisites were suggested for the LLRM. Then, the logical and physical data formats were proposed, followed by the development of encoding and decoding algorithms. To conduct a performance test of the proposed method, two different high precision digital maps were prepared as well as an evaluation tool. The test results demonstrated that the proposed method works perfectly in terms of accuracy. The processing speed and the data size were found to be less efficient, but it is expected that the defect would be compensated soon enough due to the fast growing technology of ICT and computer hardwares.
Keywords
Location referencing; Dynamic location referencing method; Lane-level; Automated and cooperative driving; Coperative intelligent transport systems;
Citations & Related Records
Times Cited By KSCI : 2  (Citation Analysis)
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1 Duckeck R., Hiestermann V., Milton H., Sena M. and Wevers K. (1998), "Rules for Defining and Referencing an Intersection Location (ILOC): Detailed Location Referencing (DLR) for ITS Based on ILOCs," Final Report (Version 1.0). European Road-Transport Telematics Implementation and Coordination Organisation Committee on Location Referencing, Brussels, Belgium, April 15.
2 Hendriks T. and Wevers K. (2007), "Abstraction conflicts in industrial deployment of model-based interoperability standards," In Proc. Conference on Systems Engineering Research (CSER).
3 Hiestermann V. (2008), "Map-independent location matching certified by the AGORA-C standard," Transportation Research Part C: Emerging Technologies, vol. 16, no. 3, pp.307-319.   DOI
4 ISO (2015), Intelligent transport systems (ITS) - Location referencing for geographic databases -Part 1: General requirements and conceptual model, International Standard.
5 ISO (2015), Intelligent transport systems (ITS) - Location referencing for geographic databases -Part 2: Pre-coded location references (pre-coded profile), International Standard.
6 ISO (2015), Intelligent transport systems (ITS) - Location referencing for geographic databases -Part 3: Dynamic location references (dynamic profile), International Standard.
7 ISO (2017), Intelligent transport systems - Traffic and travel information (TTI) via transport protocol experts group, generation 2 (TPEG2) - Part 22: OpenLR location referencing (TPEG2-OLR)
8 Koncz N. and Adams T. M. (2002), "A data model for multi-dimensional transportation location referencing systems," URISA Journal, vol. 14, no. 2, pp.27-41.
9 Pandazis J.-C. (1999), Final Report. Version 2.0. EVIDENCE Consortium, Brussels, Belgium, July 7.
10 Scarponcini P. (2002), "Generalized model for linear referencing in transportation," GeoInformatica, vol. 6, no. 1, pp.35-55.   DOI
11 Schneebauer C. and Wartenberg M. (2007), "On-the-fly location referencing methods for establishing traffic information services," IEEE Aerospace and Electronic Systems Magazine, vol. 22, no. 2, pp.14-21.   DOI
12 Vonderohe A., Chou C. L., Sun F. and Adams T. (1997), "A generic data model for linear referencing systems," Research Results Digest 218, National Cooperative Highway Research Program, Transportation Research Board.
13 Wevers K. and Hendriks T. (2006), "AGORA-C map-based location referencing," Transportation Research Record: Journal of the Transportation Research Board, vol. 1972, pp.115-122.   DOI
14 Yang I. and Jeon W.-H. (2018), "Development of lane-level location data exchange framework based on high-precision digital map," Journal of Digital Contents Society, vol. 19, no. 8, pp.1617-1623.   DOI
15 Yang I., Jeon W.-H. and Lee H.-M. (2017), "A Study on Dynamic Map Data Provision System for Automated Vehicle," Journal of Korea Institute of Intelligent Transport System, vol. 16, no. 6, pp.208-218.   DOI