Litcius/Paper detail

A Topology Guided Method for Rail-Track Detection

Songyue Yang, Guizhen Yu, Zhangyu Wang, Bin Zhou, Peng Chen, Qiang Zhang

2021IEEE Transactions on Vehicular Technology26 citationsDOI

Abstract

Rail-track detection is a core function for automated rail transit perception. However, existing methods cannot effectively detect the rail-tracks in a complex environment, especially in turnout scenarios. In this study, we propose a topology guided method to detect rail-tracks which includes the following four parts: Firstly, a neural network is used to obtain the pixels of the rail-lanes, and the geometric relationship between rail-lanes is mined by inverse perspective transformation. Secondly, the rail-lanes’ pixels are converted to rail-lanes’ key points and the topological relationship between the key points. Thirdly, the rail-lanes are reconnected through topological relationships between key points. Finally, the rail-track geometry features are used to match the rail-lanes. Experimental results show that the rail-track level F1 score of the proposed method reached 91.62%, which is state-of-the-art (SOTA) in this field. Furthermore, the proposed method has been tested and applied on the Hong Kong Metro Tsuen Wan Line.

Topics & Concepts

Urban rail transitTopology (electrical circuits)Track (disk drive)Rail transportationRail transitKey (lock)Artificial neural networkComputer scienceFunction (biology)EngineeringArtificial intelligenceTransport engineeringElectrical engineeringComputer securityOperating systemBiologyEvolutionary biologyAutonomous Vehicle Technology and SafetyAutomated Road and Building ExtractionVideo Surveillance and Tracking Methods