AbstractWe propose a modification of the widely known Benjamin–Johnson–Hui (BJH) cellular automaton model for single-lane traffic simulation. In particular, our model includes a ‘slow-to-stop’ rule that exhibits more realistic microscopic driver behaviour than the BJH model. We present some statistics related to fuel economy and pollution generation and show that our model differs greatly in these measures. We give concise results based on extensive simulations using our system
A high fidelity cell based traffic simulation model (CELLSIM) has been developed for simulation of h...
Microscopic Traffic Simulation Model based on Cellular Automata (CA) has become more and more popula...
This paper introduces a cellular automaton design of intersections and defines rules to model traffi...
AbstractWe propose a modification of the widely known Benjamin–Johnson–Hui (BJH) cellular automaton ...
AbstractWe propose a cellular automaton model that simulates traffic flow with a junction. We consid...
We present a new cellular automata model of vehicular traffic in cities by combining ideas borrowed ...
Recently, traffic problems have attracted considerable attention Numerical simulations, hydrodynamic...
In this paper, we explore the usefulness of cellular automata to traffic flow modeling. We extend so...
A Cellular Automaton is a extremely simplified program for the simulation of complex transportation ...
The paper deals with mathematical modelling of traffic flows on urban road networks using cellular a...
A cellular automata model is proposed to simulate microscopic traffic flow. In this type of models, ...
We present a very simple stochastic traffic cellular automaton (CA) model to reproduce synchronized ...
AbstractIn this paper, we propose a modified version of road traffic model based on parallel process...
AbstractThis work presents a probabilistic model for the microscopic simulation of traffic roads bas...
Based on the existing safe distance cellular automata model, an improved cellular automata model bas...
A high fidelity cell based traffic simulation model (CELLSIM) has been developed for simulation of h...
Microscopic Traffic Simulation Model based on Cellular Automata (CA) has become more and more popula...
This paper introduces a cellular automaton design of intersections and defines rules to model traffi...
AbstractWe propose a modification of the widely known Benjamin–Johnson–Hui (BJH) cellular automaton ...
AbstractWe propose a cellular automaton model that simulates traffic flow with a junction. We consid...
We present a new cellular automata model of vehicular traffic in cities by combining ideas borrowed ...
Recently, traffic problems have attracted considerable attention Numerical simulations, hydrodynamic...
In this paper, we explore the usefulness of cellular automata to traffic flow modeling. We extend so...
A Cellular Automaton is a extremely simplified program for the simulation of complex transportation ...
The paper deals with mathematical modelling of traffic flows on urban road networks using cellular a...
A cellular automata model is proposed to simulate microscopic traffic flow. In this type of models, ...
We present a very simple stochastic traffic cellular automaton (CA) model to reproduce synchronized ...
AbstractIn this paper, we propose a modified version of road traffic model based on parallel process...
AbstractThis work presents a probabilistic model for the microscopic simulation of traffic roads bas...
Based on the existing safe distance cellular automata model, an improved cellular automata model bas...
A high fidelity cell based traffic simulation model (CELLSIM) has been developed for simulation of h...
Microscopic Traffic Simulation Model based on Cellular Automata (CA) has become more and more popula...
This paper introduces a cellular automaton design of intersections and defines rules to model traffi...