Efficient Stop Sign Detection Using 3D Scene Geometry Jeffrey Schlosser CS 223b March 17, 2008.
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Efficient Stop Sign Detection Using 3D Scene Geometry Jeffrey Schlosser CS 223b March 17, 2008
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Transcript of Efficient Stop Sign Detection Using 3D Scene Geometry Jeffrey Schlosser CS 223b March 17, 2008.
Efficient Stop Sign Detection Using 3D Scene Geometry
Jeffrey SchlosserCS 223bMarch 17, 2008
Problem Statement and Data
Quickly and reliably detect stop signs using data acquired from a camera mounted on an autonomous vehicle
Approach
Haar classifiers used to form representation of stop signs
Utilize known geometry:
x
y
z
pinhole camera
camera coordinate frame
dy
dx
h
Approach (cont.)
000 Xx gKZ x’
y’ Possible locations and scales of stop signs
Results: Single Image
Processing time:
1117 milliseconds
Processing time:
275 milliseconds
Traditional Algorithm (comprehensive search)
Intelligent Algorithm (using 3D scene context)
Results: Image Sequence
Average Processing time: 253 milliseconds
3.9 fps 1.53 FP/image
Average Processing time: 71 milliseconds
14 fps 0.73 FP/image
Intelligent Algorithm (using 3D scene context)
Traditional Algorithm (comprehensive search)
Even faster times possible with better information
Questions?
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