Abstract:
Nowadays, the problem of traffic congestion becomes severe in almost all the countries of the world. Waste of time and
money, loss of human life and negative impact on the environment are some adverse effects of traffic congestion. Currently, to minimize
the impact of traffic congestion, different traffic light control mechanisms are deployed but these mechanisms are not capable of handling
the problem of increased traffic efficiently. Researchers across the globe are working on an Intelligent Transport System which aims to
provide hassle-free traffic movement. Many researchers have proposed dynamic solutions for controlling traffic light considering traffic
density and traffic velocity within the ready or green area but almost all the researchers have taken a static value of this ready or green
area and hence these solutions are performing well for specific traffic scenarios but not for all the scenarios. In this paper, a novel
Zone based traffic adaptive traffic light control mechanism is proposed which efficiently calculates optimal green phase time and cycle
time for a traffic light. In the proposed mechanism, for calculating the optimal value of green phase time and cycle time, ready or
green area is divided into different zones. Each zone is allocated a specific multiplying factor (weight) and zone wise real-time traffic
density is collected using VANET. For all the edges, priority is calculated based on the multiplying factor of the zone and traffic density
within that zone. The edge with maximum priority will be allocated a green phase first. To evaluate the performance of the proposed
system, a simulation testbed is prepared using SUMO traffic simulator. The simulation result shows that the proposed mechanism
significantly minimizes the waiting time compared to the other dynamic mechanisms. To determine optimal value of number of zones,
the performance comparison considering two, three and four zones is also presented.