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http://dx.doi.org/10.5369/JSST.2019.28.3.164

Lane Detection System Based on Vision Sensors Using a Robust Filter for Inner Edge Detection  

Shin, Juseok (Dept. of Autonomous Driving System)
Jung, Jehan (Dept. of Autonomous Driving System)
Kim, Minkyu (Dept. of Automation System, Ulsan Campus of KOREA POLYTECHNIC)
Publication Information
Journal of Sensor Science and Technology / v.28, no.3, 2019 , pp. 164-170 More about this Journal
Abstract
In this paper, a lane detection and tracking algorithm based on vision sensors and employing a robust filter for inner edge detection is proposed for developing a lane departure warning system (LDWS). The lateral offset value was precisely calculated by applying the proposed filter for inner edge detection in the region of interest. The proposed algorithm was subsequently compared with an existing algorithm having lateral offset-based warning alarm occurrence time, and an average error of approximately 15ms was observed. Tests were also conducted to verify whether a warning alarm is generated when a driver departs from a lane, and an average accuracy of approximately 94% was observed. Additionally, the proposed LDWS was implemented as an embedded system, mounted on a test vehicle, and was made to travel for approximately 100km for obtaining experimental results. Obtained results indicate that the average lane detection rates at day time and night time are approximately 97% and 96%, respectively. Furthermore, the processing time of the embedded system is found to be approximately 12fps.
Keywords
Lane detection; Vision Sensor; ADAS;
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