Title :
Lane-level positioning for in-vehicle navigation and automated vehicle location (AVL) systems
Author :
Du, Jie ; Masters, Jason ; Barth, Matthew
Author_Institution :
Electr. Eng. & CE-CERT, California Univ., Riverside, CA, USA
Abstract :
The majority of today´s in-vehicle navigation systems as well as automated vehicle location (AVL) systems use GPS (global positioning system) technology that can provide position information with an accuracy of approximately 10-20 meters. Recently, low cost differential GPS receivers have now become available which have positioning accuracy of approximate 1-3 meters. We describe a real-time DGPS system coupled with a developed map-matching algorithm, which is capable of performing lane-determination on today´s roadways. Lane-level positioning opens up the door for a number of new applications such as better fleet management, lane-based traffic measurements from probe vehicles, and lane-level navigation. The developed low-cost system has been tested on a number of roadways and has performed very well when used with accurately surveyed map data.
Keywords :
Global Positioning System; real-time systems; road traffic; road vehicles; automated vehicle location systems; differential GPS receivers; fleet management; global positioning system technology; in-vehicle navigation systems; lane based traffic measurements; lane level navigation; lane level positioning; map matching algorithm; probe vehicles; real time DGPS system; roadways; Automated highways; Costs; Global Positioning System; Marine vehicles; Navigation; Position measurement; Real time systems; Road vehicles; Sensor systems; System testing;
Conference_Titel :
Intelligent Transportation Systems, 2004. Proceedings. The 7th International IEEE Conference on
Print_ISBN :
0-7803-8500-4
DOI :
10.1109/ITSC.2004.1398868
