Author(s): Bonnifait Philippe | Jabbour Maged | Dherbomez Gérald
Journal: EURASIP Journal on Embedded Systems
ISSN 1687-3955
Volume: 2007;
Issue: 1;
Start page: 039350;
Date: 2007;
Original page
ABSTRACT
This paper presents a loosely coupled fusion approach that merges GPS data, dead-reckoned sensors, and GIS (geographical information system) data. The GPS latency is compensated for by the DR sensors and the use of an xPPS signal. The fusion of the estimate with the map data is spatial-triggered, while the fusion with the GPS is time-triggered. We present a strategy that relies on pose tracking which is reinitialized when GPS data become incoherent. Particular attention is given to the representation of the road map and to the management of a cache memory for efficiency purposes. We report experiments carried out with our equipped car and a GIS whose characteristics are well adapted to embedded constraints.
Journal: EURASIP Journal on Embedded Systems
ISSN 1687-3955
Volume: 2007;
Issue: 1;
Start page: 039350;
Date: 2007;
Original page
ABSTRACT
This paper presents a loosely coupled fusion approach that merges GPS data, dead-reckoned sensors, and GIS (geographical information system) data. The GPS latency is compensated for by the DR sensors and the use of an xPPS signal. The fusion of the estimate with the map data is spatial-triggered, while the fusion with the GPS is time-triggered. We present a strategy that relies on pose tracking which is reinitialized when GPS data become incoherent. Particular attention is given to the representation of the road map and to the management of a cache memory for efficiency purposes. We report experiments carried out with our equipped car and a GIS whose characteristics are well adapted to embedded constraints.
