Lane Change Intent Analysis Using Robust Operators and Sparse Bayesian Learning

Author

McCall, Joel C. ; Wipf, David P. ; Trivedi, Mohan M. ; Rao, Bhaskar D.

Author_Institution

Microsoft Corp., Redmond

Volume

8

Issue

3

fYear

2007

Firstpage

431

Lastpage

440

Abstract

In this paper, we demonstrate a driver intent inference system that is based on lane positional information, vehicle parameters, and driver head motion. We present robust computer vision methods for identifying and tracking freeway lanes and driver head motion. These algorithms are then applied and evaluated on real-world data that are collected in a modular intelligent vehicle test bed. Analysis of the data for lane change intent is performed using a sparse Bayesian learning methodology. Finally, the system as a whole is evaluated using a novel metric and real-world data of vehicle parameters, lane position, and driver head motion.

Keywords

Bayes methods; computer vision; inference mechanisms; learning (artificial intelligence); traffic engineering computing; computer vision; driver intent inference system; lane change intent analysis; modular intelligent vehicle; robust operators; sparse Bayesian learning; Bayesian methods; Computer vision; Data analysis; Inference algorithms; Intelligent vehicles; Robustness; Testing; Tracking; Traffic control; Vehicle driving; Computer vision; driver assistance systems; driver intent inference; intelligent vehicles; sparse Bayesian learning (SBL);

fLanguage

English

Journal_Title

Intelligent Transportation Systems, IEEE Transactions on

Publisher

ieee

ISSN

1524-9050

Type

jour

DOI

10.1109/TITS.2007.902640

Filename

4298904