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thesis.txt
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thesis.txt
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1. vehicle detection from 3D Lidar Using Fully Convolutional Network
Lidar Processing
1. project range scans as 2D maps similat to the depth map of RGBD data
1. velodyne scan can be roughly projected and discretized into a 2D point map.
θ = atan2(y, x) # azimuth angle
φ = arcsin(z / √x**2 + y**2 + z**2) # elevation angle
r = int(θ / ⊿θ) # 2D Map Position
c = int(φ / ⊿φ) # 2D Map Position
⊿θ is the average horizontal and vertical angle resolution between consecutive beam emitters
⊿θ = 0.08 http://velodynelidar.com/hdl-64e.html
⊿φ = 0.4
each (r, c) have 2-channel data (d, z), d is √x**2 + y**2
kitti
Label
#Values Name Description
----------------------------------------------------------------------------
1 type Describes the type of object: 'Car', 'Van', 'Truck',
'Pedestrian', 'Person_sitting', 'Cyclist', 'Tram',
'Misc' or 'DontCare'
1 truncated Float from 0 (non-truncated) to 1 (truncated), where
truncated refers to the object leaving image boundaries
1 occluded Integer (0,1,2,3) indicating occlusion state:
0 = fully visible, 1 = partly occluded
2 = largely occluded, 3 = unknown
1 alpha Observation angle of object, ranging [-pi..pi]
4 bbox 2D bounding box of object in the image (0-based index):
contains left, top, right, bottom pixel coordinates
3 dimensions 3D object dimensions: height, width, length (in meters)
3 location 3D object location x,y,z in camera coordinates (in meters)
1 rotation_y Rotation ry around Y-axis in camera coordinates [-pi..pi]
1 score Only for results: Float, indicating confidence in
detection, needed for p/r curves, higher is better.
type trun occl alpha bbox bbox bbox bbox dimen dimen dimen loc loc loc rotate
Car 0.89 0 2.29 0.00 194.70 414.71 373.00 1.57 1.67 4.14 -2.75 1.70 4.10 1.72