This paper investigates the recursive estimation of vehicular speed using the information provided by a single inductance loop detector (ILD). A statistical model for space-mean speed measured by an ILD is developed, upon which a Bayesian analysis is carried out to estimate vehicular speed. This results in a set of recursive formulae which is analytically nice and neat. The incurred computational cost for updating the estimate of vehicular speed is kept to be a minimum. As a by-product, a simple method for the calibration of the effective vehicle length of an ILD is also developed. The proposed method is illustrated using simulation studies and a practical example
Abstract- Traffic speed is one of the most important indicators for traffic control and management. ...
In one of the very first papers on traffic flow theory back in 1952, Wardrop presented the differenc...
Flow speed describes general traffic operation conditions on a segment of roadway. It is also used t...
This paper investigates the recursive estimation of vehicular speed using the information provided b...
Vehicle time headway is an important traffic parameter. It affects roadway safety, capacity, and lev...
A dual-loop detector consists of two connected single-loop detectors placed several feet apart. Comp...
This paper describes five techniques for estimating vehicle speeds using the digital output produced...
Single Inductance Loop Detectors (ILDs) which provide online measurements of traffic volume and occu...
Recursive estimation of average vehicle time headway using single inductive loop detector data This ...
Vehicle time headway is one of the most fundamental microscopic characteristics of traffic flow. It ...
Travel time is the reciprocal of speed and is a useful measure of road congestion and traffic system...
In this project, we developed an innovative methodology to solve a long-standing traffic engineering...
Traffic data from single loop detectors are one of the dominant data sources widely used in many tra...
The relationship between time-mean and space-mean speed that was derived by Wardrop (1) and presente...
Transportation agencies have invested in an extensive network of magneto-inductive sensors for vehic...
Abstract- Traffic speed is one of the most important indicators for traffic control and management. ...
In one of the very first papers on traffic flow theory back in 1952, Wardrop presented the differenc...
Flow speed describes general traffic operation conditions on a segment of roadway. It is also used t...
This paper investigates the recursive estimation of vehicular speed using the information provided b...
Vehicle time headway is an important traffic parameter. It affects roadway safety, capacity, and lev...
A dual-loop detector consists of two connected single-loop detectors placed several feet apart. Comp...
This paper describes five techniques for estimating vehicle speeds using the digital output produced...
Single Inductance Loop Detectors (ILDs) which provide online measurements of traffic volume and occu...
Recursive estimation of average vehicle time headway using single inductive loop detector data This ...
Vehicle time headway is one of the most fundamental microscopic characteristics of traffic flow. It ...
Travel time is the reciprocal of speed and is a useful measure of road congestion and traffic system...
In this project, we developed an innovative methodology to solve a long-standing traffic engineering...
Traffic data from single loop detectors are one of the dominant data sources widely used in many tra...
The relationship between time-mean and space-mean speed that was derived by Wardrop (1) and presente...
Transportation agencies have invested in an extensive network of magneto-inductive sensors for vehic...
Abstract- Traffic speed is one of the most important indicators for traffic control and management. ...
In one of the very first papers on traffic flow theory back in 1952, Wardrop presented the differenc...
Flow speed describes general traffic operation conditions on a segment of roadway. It is also used t...