The estimates state that more than 75% of Earth’s population will be living in urban areas by 2050. As the majority of population belonging to rural areas have started migrating to urban areas, this has led towards the issues of higher pressure on the existing resources and the infrastructure. These trends could be easily noticed in China, India, Africa, and Australia. In vehicles, vehicle-to-vehicle and vehicle-to-infrastructure applications tend to employ DSRC and Vehicular Ad Hoc Networks (VANETs) to provide rich, real-time fleet data to improve safety, efficiency, reliability, comfort, and convenience that would be infeasible to collect within the confines of a single vehicle. The work focuses upon a specific application of Intelligent Traffic Light System (ITLS) while keeping into consideration the need of traffic light clearance for emergency vehicles at the earliest possible. Future work of the paper includes evaluating the efficiency of proposed scheme and working on an offline–online sync-based information dissemination mechanism in a smart city.
Correlation Between Traffic Lights and Emergency Vehicles in Intelligent Transportation System
Internet of Things: Tech., Communicat., Computing
Intelligent Cyber-Physical Systems for Autonomous Transportation ; Chapter : 9 ; 153-165
2021-12-15
13 pages
Article/Chapter (Book)
Electronic Resource
English
Radar sensor , Ultrasonic sensor , Magnetometer sensor , Inductive loop detector (ILD) sensor , Intelligent transportation systems , Vehicular ad hoc networks , Vehicle-to-vehicle , Pneumatic road tube sensor , Vehicle-to-infrastructure applications , Infrared sensor , Intrusive sensors , Piezoelectric sensors , Acoustic array sensors , Intelligent traffic light system , Radio frequency identification (RFID) sensor Automotive Engineering , Cyber-physical systems, IoT , Communications Engineering, Networks , Engineering , Computer Science