Combining Support Vector Regression with Scaling Methods for Highway Tollgates Travel Time and Volume Predictions
Paper in proceeding, 2017
Toll roads or controlled-access roads are very commonly used, e.g. in Asia. Drivers expect to drive smoother and faster on the toll roads compared to on regular roads. However, long queues on toll roads, particularly at the tollgates, often happen and create many problems. Being
able to accurately predict travel time and volume of the tollgates would allow appropriate measures to improve traffic flow and safety to be taken. This paper describes a novel investigation on the use of scaling methods with Support Vector Regression (SVR) for highway tollgates travel time and volume prediction tasks as well as an investigation of the most important features for these tasks. Experiments were done as part of the Knowledge Discovery and Data Mining (KDD) Cup 2017. Suitability of certain scaling methods for dfferent types of time series and reasoning why certain features are important for these tasks are also discussed.
time series analysis
SVR with scaling
highway tollgates
traffic volume prediction
Traffic flow prediction
robust scaling
machine learning
support vector regression
SVR
Author
Amanda Yan Lin
Mechanics and Maritime Sciences (M2)
Chalmers, Computer Science and Engineering (Chalmers)
Mengcheng Zhang
Mechanics and Maritime Sciences (M2)
Chalmers, Computer Science and Engineering (Chalmers)
Selpi Selpi
Mechanics and Maritime Sciences (M2)
Proceedings of International Work-Conference on Time Series Analysis (ITISE 2017), Granada, 18-20 September 2017
Vol. 1 411-421
978-84-17293-01-7 (ISBN)
Driving Forces
Sustainable development
Areas of Advance
Transport
Subject Categories
Computer and Information Science
Probability Theory and Statistics
Computer Science
ISBN
978-84-17293-01-7