Abstract
Importance of traffic state prediction steadily increases with growing volume of traffic. Ability to predict traffic speed in short to medium horizon (i.e. up to one hour) is one of the main tasks of every newly developed Intelligent Transportation System. There are two possible approaches to this prediction. The first is to utilize physical properties of the traffic flow to construct an exact or approximate numerical model. This approach is, however, almost impossible to implement on a larger scale given the difficulty to obtain enough traffic data to describe the starting and boundary conditions of the model. The other option is to use historical traffic data and relate information and patterns they contain to the current traffic state by application of some form of statistical or machine learning approach. We propose to use combination of Ensemble Kalman filter and Cell Transmission Model for this task. These models combine properties of physical model with ability to incorporate uncertainty of the traffic data.
Highlights
The objective of this study is to propose a macroscopic traffic speed prediction model, which can be based both on stationary and dynamic data sources
Most straightforward solution to the traffic speed prediction problem is to solve it by application of some form of kinematic wave model or car following model
When trained on the suitably large data set, Ensemble Kalman filter (EnKF) algorithm will be improved by thorough calibration
Summary
The objective of this study is to propose a macroscopic traffic speed prediction model, which can be based both on stationary and dynamic data sources. Most straightforward solution to the traffic speed prediction problem is to solve it by application of some form of kinematic wave model or car following model They accurately describe behavior of traffic flow by application of physical models. Even though there are some models which circumvent this problem (for example Cell transmission model - velocity (CTM-v), I still have insufficient data to exactly describe their initial and boundary conditions. Other prediction scheme for this problem must be proposed
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