Vision-Based Robust Lane Detection and Tracking under Different Challenging Environmental Conditions
arxiv(2022)
摘要
Lane marking detection is fundamental for both advanced driving assistance
systems. However, detecting lane is highly challenging when the visibility of a
road lane marking is low due to real-life challenging environment and adverse
weather. Most of the lane detection methods suffer from four types of
challenges: (i) light effects i.e., shadow, glare of light, reflection etc.;
(ii) Obscured visibility of eroded, blurred, colored and cracked lane caused by
natural disasters and adverse weather; (iii) lane marking occlusion by
different objects from surroundings (wiper, vehicles etc.); and (iv) presence
of confusing lane like lines inside the lane view e.g., guardrails, pavement
marking, road divider etc. Here, we propose a robust lane detection and
tracking method with three key technologies. First, we introduce a
comprehensive intensity threshold range (CITR) to improve the performance of
the canny operator in detecting low intensity lane edges. Second, we propose a
two-step lane verification technique, the angle based geometric constraint
(AGC) and length-based geometric constraint (LGC) followed by Hough Transform,
to verify the characteristics of lane marking and to prevent incorrect lane
detection. Finally, we propose a novel lane tracking technique, by defining a
range of horizontal lane position (RHLP) along the x axis which will be
updating with respect to the lane position of previous frame. It can keep track
of the lane position when either left or right or both lane markings are
partially and fully invisible. To evaluate the performance of the proposed
method we used the DSDLDE [1] and SLD [2] dataset with 1080x1920 and 480x720
resolutions at 24 and 25 frames/sec respectively. Experimental results show
that the average detection rate is 97.55
22.33 msec/frame, which outperform the state of-the-art method.
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