Performance Evaluation of the McMaster Incident Detection Algorithm

Lyall, Bradley Benjamin

04 1900

The McMaster incident detection algorithm is being tested on-line within the Burlington freeway traffic management system (FTMS) as an alternative to the existing California-type algorithm currently in place. This paper represents the most recent and comprehensive evaluation of the McMaster algorithm's performance to date. In the past, the algorithm has been tested using single lane detectors for the northbound lanes only. This evaluation uses data from lanes 1 and 2 for each of the 13 northbound and 13 southbound detector stations. The data was collected during a 60-day period beginning on November 15, 1990 and ending January 13, 1991. Detection rate, mean time-lag to detection and false alarm rate are used to evaluate the performance of the algorithm. As well, those factors such as winter precipitation, which influenced the performance of the algorithm are also examined. To improve the algorithm's detection rate and lower its false alarm rate, it is reccomended that the persistence check used to declare an incident be increased by 30-seconds from 2 to 3 periods. / Thesis / Candidate in Philosophy

geography

performance evaluation

McMaster incident detection algorithm

IMPROVED VEHICLE LENGTH MEASUREMENT AND CLASSIFICATION FROM FREEWAY DUAL-LOOP DETECTORS IN CONGESTED TRAFFIC

Wu, Lan

21 May 2014

No description available.

Civil Engineering

Dual-loop detector

Speed and length measurement

Length-based vehicle classification

Freeway traffic

Congested traffic

Freeway On-Ramp Bottleneck Activation, Capacity, and the Fundamental Relationship

Kim, Seoungbum

04 September 2013

No description available.

Transportation

Bottleneck process

Capacity drop

Fundamental relationship

Freeway traffic

Driver relaxation

Algorithms to Improve the Quality of Freeway Traffic Detector Data

Lee, Ho

30 August 2012

No description available.

Civil Engineering

Transportation

Pulse breakup

splashover

freeway traffic monitoring

loop detectors

error detection

AI-based Multi-class Traffic Model Oriented to Freeway Traffic Control

Binjaku, Kleona, Pasquale, Cecilia, Sacone, Simona, Meçe, Elinda Kajo

23 June 2023

In this extended abstract, we propose an Artificial Intelligence-based model dedicated to the representation of a multi-class traffic flow, i.e. a traffic flow in which different vehicle classes (at least cars and trucks) are explicitly represented, with the aim of using it for the development of freeway traffic control schemes based on ramp management. Specifically, the goal of this work is to develop a hybrid modelling technique in which a Machine Learning component and the multi-class version of METANET model are adopted to determine a better estimation and forecasting tool for freeway traffic. The resulting model is specifically devised in order to be included in a Model Predictive Control (MPC) scheme for the required traffic state prediction.

info:eu-repo/classification/ddc/360

ddc:360