A survey on context-aware systems
International Journal of Ad Hoc and Ubiquitous Computing
Continuous Range Search Query Processing in Mobile Navigation
ICPADS '08 Proceedings of the 2008 14th IEEE International Conference on Parallel and Distributed Systems
In-vehicle technology functional requirements for older drivers
Proceedings of the 1st International Conference on Automotive User Interfaces and Interactive Vehicular Applications
Event sharing in vehicular networks using geographic vectors and maps
Mobile Information Systems
Voronoi-based multi-level range search in mobile navigation
Multimedia Tools and Applications
Designing an integrated driver assistance system using image sensors
Journal of Intelligent Manufacturing
GeoVanet: A routing protocol for query processing in vehicular networks
Mobile Information Systems
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Recently, significant improvements have been made in the area of vehicular communication systems. Furthermore, vehicle-to-vehicle communication is considered a key concept for keeping roads safe. An efficient implementation of these systems is necessary to ensure the safety of driving situations and to reduce the collision rates. This paper proposes a Context-Aware Driver Assistance System that links drivers with the physical environment surrounding them using multiple types of sensors and traffic systems as well as considering the senior driver's difficulties and the system processing time. This is achieved by developing a warning system that assists drivers to avoid collisions and improve their response times. The proposed system architecture consists of a set of components to process the user's request such as parking assistance, and to provide responses and advices when needed. These components include communication, knowledge exchange, knowledge update, and context-history. Also, it includes other processes such as context-history manipulation, hazard detection, and hazard detection control. The main goal of the proposed system is to reduce the number of car accidents and improve driver's decisions. The NXT Robotic environment is used to demonstrate the feasibility of the proposed system.