Title :
Crossing obstacle detection with a vehicle-mounted camera
Author :
Sato, Ikuro ; Yamano, Chiharu ; Yanagawa, Hirohiko
Author_Institution :
Denso IT Lab., Inc., Tokyo, Japan
Abstract :
We propose a computer vision algorithm that detects obstacles crossing a vehicle´s path with a monocular camera mounted on the vehicle. False positives are strongly suppressed even for low-resolution images by imposing constraints on feature-based optical flows. The constraints are derived from a model of crossing obstacle motion under perspective projection. A key concept in this model is “Relative Incoming Angle”, which is an angle between the camera´s translational direction and relative velocity of a crossing obstacle with respect to the camera. We show a ROC curve that has been obtained by varying the Relative Incoming Angle using our dataset consisting of 18 scenes, 1456 frames. A representative point on the curve yields the detection rate of 59.7% and false positive rate of 2.6% (per-image).
Keywords :
cameras; computer vision; image sequences; object detection; traffic engineering computing; ROC curve; computer vision algorithm; crossing obstacle detection; feature-based optical flow; monocular camera; perspective projection; receiver operating characteristic curve; relative incoming angle concept; vehicle-mounted camera; Accidents; Cameras; Computational modeling; Computer vision; Optical imaging; Roads; Vehicles;
Conference_Titel :
Intelligent Vehicles Symposium (IV), 2011 IEEE
Conference_Location :
Baden-Baden
Print_ISBN :
978-1-4577-0890-9
DOI :
10.1109/IVS.2011.5940404
