Keywords: Computer vision, 3D reconstruction, Fisheye camera, stereo vision, Multiple-view geometry Internship Duration: 30/11/-1 - 30/11/-1
Head of the hosting team: Dalil Ichala
Website: Click here
Address of the host laboratory: IBISC Team SIAM 40, rue du Pelvoux 91000 Evry Courcouronnes France
Supervisor: HADJ-ABDELKADER HichamE-mail: hicham.hadjabdelkader@univ-evry.fr Phone: +33650802093
Cameras with large field-of-view have become increasingly popular and affordable. These systems consist of multiple perspective cameras rigidly attached to the same support or combine mirrors and wide-angle (fisheye) lenses to conventional cameras. Thanks to their ability to capture a scene from all around, these low-cost sensors offer new opportunities for image-based 3D reconstruction. Stereo-vision methods consist of recovering depth from two images of the same scene. Indeed, two images and their geometric relationship are exploited to estimate the depth information and, thus, the 3D point cloud. Each 3D point corresponds to a 2D image point in one of the images. The literature has extensively investigated these methods when the stereo system comprises two conventional or perspective cameras. However, very few works have been proposed in the literature for large field-of-view cameras, such as fisheye [1][2] or catadioptric systems [3] (combining a mirror and a perspective camera).
The main objective of this internship proposal is to study the problem of stereo vision using a fisheye stereo camera. After calibrating the system through the software CaliCam, the fisheye images will be first represented onto the spherical space, adapted for large field-of-view cameras. Then, the geometric relationship between the two spherical images will be established. Existing algorithms for conventional stereo vision can thus be adapted for fisheye stereo images. The proposed technique will be evaluated using the stereo fisheye camera from ATAR. A comparison with traditional stereo cameras will be realized.
[1] J. Caracotte, F. Morbidi, E. Mouaddib, “Photometric Stereo with Twin-Fisheye Cameras”, in Proc. 25th Int. Conf. Pattern Recognition (ICPR), pp. 5270-5277, 2021 [2] J. Caracotte, F. Morbidi, E. Mouaddib, “Photometric Stereo with Central Panoramic Cameras”, Computer Vision and Image Understanding, vol. 201, art. 103080, December 2020 [3] C. Cai and R. Qiao, “An Improved Calibration Method for Stereo Fisheye Vision”, 2021 33rd Chinese Control and Decision Conference (CCDC), Kunming, China, 2021, pp. 3158-3162
