Computer vision system for identifying road signs using triangulation and bundle adjustment

Date

2009-12-07T20:30:06Z

Journal Title

Journal ISSN

Volume Title

Publisher

Kansas State University

Abstract

This thesis describes the development of an automated computer vision system that identifies and inventories road signs from imagery acquired from the Kansas Department of Transportation's road profiling system that takes images every 26.4 feet on highways through out the state. Statistical models characterizing the typical size, color, and physical location of signs are used to help identify signs from the imagery. First, two phases of a computationally efficient K-Means clustering algorithm are applied to the images to achieve over-segmentation. The novel second phase ensures over-segmentation without excessive computation. Extremely large and very small segments are rejected. The remaining segments are then classified based on color. Finally, the frame to frame trajectories of sign colored segments are analyzed using triangulation and Bundle adjustment to determine their physical location relative to the road video log system. Objects having the appropriate color, and physical placement are entered into a sign database. To develop the statistical models used for classification, a representative set of images was segmented and manually labeled determining the joint probabilistic models characterizing the color and location typical to that of road signs. Receiver Operating Characteristic curves were generated and analyzed to adjust the thresholds for the class identification. This system was tested and its performance characteristics are presented.

Description

Keywords

Classification, Triangulation, Bundle Adjustment, K-Means, Segmentation, mahalanobis distance

Graduation Month

December

Degree

Master of Science

Department

Department of Electrical and Computer Engineering

Major Professor

Christopher L. Lewis

Date

2009

Type

Thesis

Citation