Add to ORKGThis chapter introduces the concept of Cooperative Positioning (CP) for vehicular networks, or more precisely, VANETs (Vehicular Adhoc NETworks), as an application of DSRC (Dedicated Short Range Communication). It includes a comprehensive review of available and hypothetical vehicular positioning technologies. Amongst these, the importance of CP for Location Based Services using DSRC is emphasized, and some important issues are addressed that need to be resolved in order to implement CP successfully with standard DSRC infrastructure. The performance bounds of CP are derived. Ranging between vehicles is identified as the main hurdle to be overcome. Time-based techniques of ranging are introduced, and the bandwidth requirements are investigat...
Absolute positioning of vehicles is based on Global Navigation Satellite Systems (GNSSs) combined wi...
Absolute positioning of vehicles is based on Global Navigation Satellite Systems (GNSS) combined wit...
In this paper, we evaluate the ability of stationary vehicles (e.g. parked or temporary stopped cars...
Many of the safety related applications that can be facilitated by Dedicated Short Range Communicati...
Cooperative positioning (CP) is a localization technique originally developed for use across wireles...
Despite the fact that drivers are often blamed for fatal accidents on the roads, the significant num...
ABSTRACT: Many of the safety related applications that can be facilitated by Dedicated Short Range C...
We present a new cooperative positioning (CP) method to increase localization accuracy in extended v...
Abstract—Vehicle-to-vehicle communications via dedicated-short-range-communication (DSRC) devices wi...
Intelligent transportation system significantly relies on accurate positioning information of land v...
In this paper, a novel approach for improving vehicular positioning is presented. This method is bas...
Absolute positioning of vehicles is based on Global Navigation Satellite Systems (GNSSs) combined wi...
Absolute positioning of vehicles is based on Global Navigation Satellite Systems (GNSSs) combined wi...
Absolute positioning of vehicles is based on Global Navigation Satellite Systems (GNSSs) combined wi...
Absolute positioning of vehicles is based on Global Navigation Satellite Systems (GNSS) combined wit...
Absolute positioning of vehicles is based on Global Navigation Satellite Systems (GNSSs) combined wi...
Absolute positioning of vehicles is based on Global Navigation Satellite Systems (GNSS) combined wit...
In this paper, we evaluate the ability of stationary vehicles (e.g. parked or temporary stopped cars...
Many of the safety related applications that can be facilitated by Dedicated Short Range Communicati...
Cooperative positioning (CP) is a localization technique originally developed for use across wireles...
Despite the fact that drivers are often blamed for fatal accidents on the roads, the significant num...
ABSTRACT: Many of the safety related applications that can be facilitated by Dedicated Short Range C...
We present a new cooperative positioning (CP) method to increase localization accuracy in extended v...
Abstract—Vehicle-to-vehicle communications via dedicated-short-range-communication (DSRC) devices wi...
Intelligent transportation system significantly relies on accurate positioning information of land v...
In this paper, a novel approach for improving vehicular positioning is presented. This method is bas...
Absolute positioning of vehicles is based on Global Navigation Satellite Systems (GNSSs) combined wi...
Absolute positioning of vehicles is based on Global Navigation Satellite Systems (GNSSs) combined wi...
Absolute positioning of vehicles is based on Global Navigation Satellite Systems (GNSSs) combined wi...
Absolute positioning of vehicles is based on Global Navigation Satellite Systems (GNSS) combined wit...
Absolute positioning of vehicles is based on Global Navigation Satellite Systems (GNSSs) combined wi...
Absolute positioning of vehicles is based on Global Navigation Satellite Systems (GNSS) combined wit...
In this paper, we evaluate the ability of stationary vehicles (e.g. parked or temporary stopped cars...