Validation of Map Matching Algorithms using High Precision Positioning with GPS

Mohammed A. Quddus; Robert B. Noland; Washington Y. Ochieng

doi:10.1017/S0373463305003231

Abstract

Map Matching (MM) algorithms are usually employed for a range of transport telematics applications to correctly identify the physical location of a vehicle travelling on a road network. Two essential components for MM algorithms are (1) navigation sensors such as the Global Positioning System (GPS) and dead reckoning (DR), among others, to estimate the position of the vehicle, and (2) a digital base map for spatial referencing of the vehicle location. Previous research by the authors (Quddus et al., 2003; Ochieng et al., 2003) has developed improved MM algorithms that take account of the vehicle speed and the error sources associated with the navigation sensors and the digital map data previously ignored in conventional MM approaches. However, no validation study assessing the performance of MM algorithms has been presented in the literature. This paper describes a generic validation strategy and results for the MM algorithm previously developed in Ochieng et al. (2003). The validation technique is based on a higher accuracy reference (truth) of the vehicle trajectory as determined by high precision positioning achieved by the carrier-phase observable from GPS. The results show that the vehicle positions determined from the MM results are within 6 m of the true positions. The results also demonstrate the importance of the quality of the digital map data to the map matching process.

Crossref Citations

This article has been cited by the following publications. This list is generated based on data provided by Crossref.

Soler, Tomás 2005. GPS/GNSS Current Bibliography. GPS Solutions, Vol. 9, Issue. 3, p. 246.

Quddus, Mohammed A. Noland, Robert B. and Ochieng, Washington Y. 2006. A High Accuracy Fuzzy Logic Based Map Matching Algorithm for Road Transport. Journal of Intelligent Transportation Systems, Vol. 10, Issue. 3, p. 103.

Quddus, Mohammed A. Ochieng, Washington Y. and Noland, Robert B. 2006. Integrity of map-matching algorithms. Transportation Research Part C: Emerging Technologies, Vol. 14, Issue. 4, p. 283.

Mayr, Herwig 2007. I-Navigate: Intelligent, Self-adapting Navigation Maps. p. 397.

Veselý, Michal and Mayr, Herwig 2007. Computer Aided Systems Theory – EUROCAST 2007. Vol. 4739, Issue. , p. 1097.

Quddus, Mohammed A. Ochieng, Washington Y. and Noland, Robert B. 2007. Current map-matching algorithms for transport applications: State-of-the art and future research directions. Transportation Research Part C: Emerging Technologies, Vol. 15, Issue. 5, p. 312.

Jones, Kipp Liu, Ling and Alizadeh-Shabdiz, Farshid 2007. Improving Wireless Positioning with Look-ahead Map-Matching. p. 1.

Liu, Chun Meng, Xiaolin and Fan, Yeming 2008. Determination of Routing Velocity with GPS Floating Car Data and WebGIS-Based Instantaneous Traffic Information Dissemination. Journal of Navigation, Vol. 61, Issue. 2, p. 337.

Ropkins, Karl Beebe, Joe Li, Hu Daham, Basil Tate, James Bell, Margaret and Andrews, Gordon 2009. Real-World Vehicle Exhaust Emissions Monitoring: Review and Critical Discussion. Critical Reviews in Environmental Science and Technology, Vol. 39, Issue. 2, p. 79.

Quddus, Mohammed A. Noland, Robert B. and Ochieng, Washington Y. 2009. The Effects of Navigation Sensors and Spatial Road Network Data Quality on the Performance of Map Matching Algorithms. GeoInformatica, Vol. 13, Issue. 1, p. 85.

Ren, Ming and Karimi, Hassan A. 2009. A Hidden Markov Model-Based Map-Matching Algorithm for Wheelchair Navigation. Journal of Navigation, Vol. 62, Issue. 3, p. 383.

Ruetters, Rene Schaefer, Bjoern Baier, Martin and Abel, Dirk 2009. Validation of satellite-based railway application systems using the GALILEO testbed railGATE exemplified by automated train formation facilities. p. 337.

Ren, Ming and Karimi, Hassan A 2009. A Chain‐Code‐Based Map Matching Algorithm for Wheelchair Navigation. Transactions in GIS, Vol. 13, Issue. 2, p. 197.

Liu, Siyuan Liu, Ce Luo, Qiong Ni, Lionel M. and Krishnan, Ramayya 2012. Calibrating Large Scale Vehicle Trajectory Data. p. 222.

Bierlaire, Michel Chen, Jingmin and Newman, Jeffrey 2013. A probabilistic map matching method for smartphone GPS data. Transportation Research Part C: Emerging Technologies, Vol. 26, Issue. , p. 78.

Liu, Siyuan Pu, Jiansu Luo, Qiong Qu, Huamin Ni, Lionel M. and Krishnan, Ramayya 2013. VAIT: A Visual Analytics System for Metropolitan Transportation. IEEE Transactions on Intelligent Transportation Systems, Vol. 14, Issue. 4, p. 1586.

Saldaña, Ana María Magdalena Guzmán, Jose Giovanni Moreno, Marco Antonio Torres, Miguel Quintero, Rolando and Pogrebnyak, Oleksiy 2014. Computational Science and Its Applications – ICCSA 2014. Vol. 8582, Issue. , p. 284.

Blazquez, Carola A. and Miranda, Pablo A. 2014. Mobile Technologies for Activity-Travel Data Collection and Analysis. p. 152.

Blazquez, Carola A. and Miranda, Pablo A. 2015. Transportation Systems and Engineering. p. 422.

Lu, Wenjie Rodríguez F., Sergio A. Seignez, Emmanuel and Reynaud, Roger 2015. Lane Marking-Based Vehicle Localization Using Low-Cost GPS and Open Source Map. Unmanned Systems, Vol. 03, Issue. 04, p. 239.

Download full list

Article contents

Validation of Map Matching Algorithms using High Precision Positioning with GPS

Abstract

Keywords

Access options

This article has been cited by the following publications. This list is generated based on data provided by Crossref.

Article contents

Validation of Map Matching Algorithms using High Precision Positioning with GPS

Abstract

Keywords

Access options

Save article to Kindle

Save article to Dropbox

Save article to Google Drive

Reply to: Submit a response

Your details

You have entered the maximum number of contributors

Conflicting interests