In this paper, we propose to use vehicular ad hoc networks (VANETs) to collect and aggregate real-time speed and position information on individual vehicles to optimize signal control at traffic intersections. We first formulate the vehicular traffic signal control problem as a job scheduling problem on processors, with jobs corresponding to platoons of vehicles. Under the assumption that all jobs are of equal size, we give an online algorithm, referred to as the oldest job first (OJF) algorithm, to minimize the delay across the intersection. We prove that the OJF algorithm is 2-competitive, implying that the delay is less than or equal to twice the delay of an optimal offline schedule with perfect knowledge of the arrivals. We then show ho...
This dissertation investigates methods of real-time adaptive traffic signal control in the context o...
ABSTRACTOptimizing autonomous vehicle movements through roadway intersections is a challenging probl...
We study intersection access control for autonomous vehicles. Platoon forming algorithms, which aim ...
In this paper, we propose to use vehicular ad hoc networks (VANETs) to collect and aggregate real-ti...
Abstract—In this paper, we propose to use vehicular ad hoc networks (VANETs) to collect and aggregat...
Efficiently controlling the flow of traffic through an intersection is the primary goal of any signa...
Vehicular Ad Hoc Network (VANET) is formed by applying the principles of Mobile Ad Hoc Networks (MAN...
Part 6: Modelling and OptimizationInternational audiencePreemption strategies are necessary for traf...
In this paper, we take a self-scheduling approach to solving the traffic signal control problem, whe...
One important objective of urban traffic signal control is to reduce individual delay and improve sa...
The present era is marked by rapid improvement and advances in technology. One of the most essential...
The increase in traffic volumes in urban areas makes network delay and capacity optimisation challen...
In modern transportation systems, Connected Vehicle (CV) technology has shown its potential as a val...
In today\u27s fast-paced society, the need to travel using automobiles is increasingly important. As...
Abstract — A vehicular Ad-Hoc Network is a technology used to array and forming a collection from se...
This dissertation investigates methods of real-time adaptive traffic signal control in the context o...
ABSTRACTOptimizing autonomous vehicle movements through roadway intersections is a challenging probl...
We study intersection access control for autonomous vehicles. Platoon forming algorithms, which aim ...
In this paper, we propose to use vehicular ad hoc networks (VANETs) to collect and aggregate real-ti...
Abstract—In this paper, we propose to use vehicular ad hoc networks (VANETs) to collect and aggregat...
Efficiently controlling the flow of traffic through an intersection is the primary goal of any signa...
Vehicular Ad Hoc Network (VANET) is formed by applying the principles of Mobile Ad Hoc Networks (MAN...
Part 6: Modelling and OptimizationInternational audiencePreemption strategies are necessary for traf...
In this paper, we take a self-scheduling approach to solving the traffic signal control problem, whe...
One important objective of urban traffic signal control is to reduce individual delay and improve sa...
The present era is marked by rapid improvement and advances in technology. One of the most essential...
The increase in traffic volumes in urban areas makes network delay and capacity optimisation challen...
In modern transportation systems, Connected Vehicle (CV) technology has shown its potential as a val...
In today\u27s fast-paced society, the need to travel using automobiles is increasingly important. As...
Abstract — A vehicular Ad-Hoc Network is a technology used to array and forming a collection from se...
This dissertation investigates methods of real-time adaptive traffic signal control in the context o...
ABSTRACTOptimizing autonomous vehicle movements through roadway intersections is a challenging probl...
We study intersection access control for autonomous vehicles. Platoon forming algorithms, which aim ...