Abstract:
Vehicle localization is one of the most common tasks in robotics. Using vision as a sensor, most methods perform localization from cameras mounted on board the vehicle. I...Show MoreMetadata
Abstract:
Vehicle localization is one of the most common tasks in robotics. Using vision as a sensor, most methods perform localization from cameras mounted on board the vehicle. In contrast, we propose a method based on an off-board camera. The system uses a similarity measure between a camera image and a synthetic image generated using a 3-D vehicle model, ideally converging to the true pose of the vehicle. The similarity measure is based on a model of shading appearance, which depends on the surface curvature of the 3-D model. Considering that the area observed by the camera is fairly planar, a rough initial estimation for the position of the object can be obtained using 2-D blob tracking. The 3-D model of the vehicle can be rendered near the vehicle in the real image, and using the proposed similarity measure, it converges to the correct pose. A classification function to discriminate between different vehicles is also proposed, making it possible for the system to identify and track multiple vehicles of interest. A number of experiments are performed with different vehicles outdoors, in a real industrial environment, considering different illumination conditions. The low average error rate compared with a laser-based ground truth illustrates the applicability of the method.
Published in: IEEE Transactions on Robotics ( Volume: 30, Issue: 2, April 2014)