2012
DOI: 10.1155/2012/465819
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River Flow Lane Detection and Kalman Filtering-Based B-Spline Lane Tracking

Abstract: A novel lane detection technique using adaptive line segment and river flow method is proposed in this paper to estimate driving lane edges. A Kalman filtering-based B-spline tracking model is also presented to quickly predict lane boundaries in consecutive frames. Firstly, sky region and road shadows are removed by applying a regional dividing method and road region analysis, respectively. Next, the change of lane orientation is monitored in order to define an adaptive line segment separating the region into … Show more

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Cited by 25 publications
(22 citation statements)
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“…According to the state of the art that we described above, we have noticed that the model proposed in Lim et al (2012); Tan et al (2014Tan et al ( , 2015 based on hyperbola road model corresponds the most accurate road model than the others works (parabolic model, B-snake model, geometric model, etc.). This model allows finding solutions that meet the needs of autonomous vehicle users under complex environmental conditions.…”
Section: The Adopted Modelmentioning
confidence: 99%
See 1 more Smart Citation
“…According to the state of the art that we described above, we have noticed that the model proposed in Lim et al (2012); Tan et al (2014Tan et al ( , 2015 based on hyperbola road model corresponds the most accurate road model than the others works (parabolic model, B-snake model, geometric model, etc.). This model allows finding solutions that meet the needs of autonomous vehicle users under complex environmental conditions.…”
Section: The Adopted Modelmentioning
confidence: 99%
“…In 2, x , y are the coordinates in pixels of the road marking points, a is the curvature parameter of the hyperbola, b is the slope of straight lane marking, and (h,v) is the coordinate vector of the vanishing point. An approach has been proposed in Tan et al (2014), which uses a hyperbola model, with an improvement by proposing a "River Flow" Lim et al (2012) to detect curved lanes in difficult conditions, including dashed line markings and vehicle occlusion. In order to determine the curvature coefficient, a new method called "Improved River Flow" Tan et al (2015) was proposed to search the characteristic points in the far field that corresponds to the lane marking.…”
Section: Curved Lanesmentioning
confidence: 99%
“…(2) Drivers; (3) Pedestrians; and (4) Infrastructure which includes roads, traffic signs, traffic lights, and traffic control centres. The ITS sub-layer focuses on some specific data processing and computation for intelligent transportation systems such as traffic sign detection and analysis, vehicle detection and tracking, incident detection, driver inattention such as distraction and fatigue detection, pedestrian detection, lane and object detection [15], etc. Table 8 gives some details of functional units for the ITS sub-layer.…”
Section: Essential Functional Units In the Intelligent Transportatmentioning
confidence: 99%
“…In [22], a novel parallel-snake model was introduced. In [23], lane boundaries were detected based on a combination of Hough transform in near-field areas and a river-flow method in farfield areas. Finally, lanes were modelled with a B-spline model and tracked with a Kalman filter.…”
Section: B Conventional Image-processing-based Lane Detection Algorimentioning
confidence: 99%