Add to ORKGWe present in this report a new car-following theory that can reproduce both the so-called capacity drop and traffic hysteresis, two prominent features of multi-phase vehicular traffic flow. This is achieved through the introduction of a single variable, driver response time, that depends on both vehicle spacing and traffic motion. By specifying different functional forms of response time, one can obtain not only brand new theories but also some of the well-known old car-following theories, which is demonstrated in this report through both theoretical analyses and numerical simulation
In this paper, a new microscopic traffic model based on forward and rearward driver response is prop...
<div><p>As a typical self-driven many-particle system far from equilibrium, traffic flow exhibits di...
This paper presents new insights on the hysteresis phenomenon in congested freeway traffic. It is fo...
We present in this paper a new car-following theory that can produce both the so-called capacity dro...
We present in this paper a new car-following theory that can reproduce both the so-called capacity d...
This paper shows that traffic hysteresis arises due to variable driver characteristics within each d...
This paper studies traffic hysteresis arising in traffic oscillations from a behavioral perspective....
Numerous theories on traffic have been developed as traffic congestion gains more and more interest ...
Heavy vehicles and passenger cars differ in their manoeuvrability and acceleration capabilities. Hea...
Abstract:- Intelligent Transportation Systems (ITS) needs traffic flow models to provide real time t...
Primary interest in driver reaction time stems from its use in microscopic traffic simulation models...
Motivated by the desire to explore future traffic flows that will consist of a mixture of classical ...
We introduce a velocity-difference-separation model that modifies the previous models in the literat...
Traffic flow downstream of the congestion is generally lower than the pre-queue capacity. This pheno...
This paper provides a detailed understanding of the mechanism of traffic hysteresis and traffic osci...
In this paper, a new microscopic traffic model based on forward and rearward driver response is prop...
<div><p>As a typical self-driven many-particle system far from equilibrium, traffic flow exhibits di...
This paper presents new insights on the hysteresis phenomenon in congested freeway traffic. It is fo...
We present in this paper a new car-following theory that can produce both the so-called capacity dro...
We present in this paper a new car-following theory that can reproduce both the so-called capacity d...
This paper shows that traffic hysteresis arises due to variable driver characteristics within each d...
This paper studies traffic hysteresis arising in traffic oscillations from a behavioral perspective....
Numerous theories on traffic have been developed as traffic congestion gains more and more interest ...
Heavy vehicles and passenger cars differ in their manoeuvrability and acceleration capabilities. Hea...
Abstract:- Intelligent Transportation Systems (ITS) needs traffic flow models to provide real time t...
Primary interest in driver reaction time stems from its use in microscopic traffic simulation models...
Motivated by the desire to explore future traffic flows that will consist of a mixture of classical ...
We introduce a velocity-difference-separation model that modifies the previous models in the literat...
Traffic flow downstream of the congestion is generally lower than the pre-queue capacity. This pheno...
This paper provides a detailed understanding of the mechanism of traffic hysteresis and traffic osci...
In this paper, a new microscopic traffic model based on forward and rearward driver response is prop...
<div><p>As a typical self-driven many-particle system far from equilibrium, traffic flow exhibits di...
This paper presents new insights on the hysteresis phenomenon in congested freeway traffic. It is fo...