Wireless Vehicular Networks for Car Collision Avoidance
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Wireless Vehicular Networks for Car Collision Avoidance focuses on the development of the ITS (Intelligent Transportation Systems) in order to minimize vehicular accidents. The book presents and analyses a range of concrete accident scenarios while examining the causes of vehicular collision and proposing countermeasures based on wireless vehicular networks.The book also describes the vehicular network standards and quality of service mechanisms focusing on improving critical dissemination of safety information. With recommendations on techniques and protocols to consider when improving road…mehr

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Produktbeschreibung
Wireless Vehicular Networks for Car Collision Avoidance focuses on the development of the ITS (Intelligent Transportation Systems) in order to minimize vehicular accidents. The book presents and analyses a range of concrete accident scenarios while examining the causes of vehicular collision and proposing countermeasures based on wireless vehicular networks.The book also describes the vehicular network standards and quality of service mechanisms focusing on improving critical dissemination of safety information. With recommendations on techniques and protocols to consider when improving road safety policies in order to minimize crashes and collision risks.
Autorenporträt
Prof. Naja is a member of the PRiSM research group (Parallelism, Networking, Systems and Modelling - www.prism.uvsq.fr/) at University of Versailles (France) and is affiliated with the ESIEE-Engineering (École Supérieure d'Ingénieurs en Électronique et Électrotechnique-Chamber of Commerce and Industry in Paris, France - www.esiee.fr/). Dr. Naja obtained her PhD in Computer Networking from the Telecom ParisTech (ENST-Paris). Her research studies lie in the area of resource allocation and mobility handling in wireless mobile multiservice networks. Dr. Naja collaborated with a number of scientists on international projects: Ambience for Ambient Intelligence, Minicell For Quality of Service in UMTS, Co-Drive for Cooperative Driving and others. She has authored highly ranked research papers published in leading international journals and in International conferences dealing with network modeling and performance, network adaptability and quality of service provisioning.