|Téma:||Deep learning for dense reconstruction from sparse depth measurements and RGB images|
|Vedoucí:||Doc. Ing. Karel Zimmermann Ph.D.|
|Popis:||Accurate 3D perception is an essential component for many fundamental capabilities such as emergency braking, predictive control for active damping, safe turning on a road intersection or self-localization from offline maps. Consequently, any fully-autonomous vehicle requires a sensor (e.g. Velodyne) providing high resolution and long range 3D measurements. The high resolution sensors are expensive, heavy, slow, and prone to mechanical wear, therefore low-resolution depth sensors (e.g. with only 4 row measurements planes) are often used in contemporary semi-autonomous cars. Autonomous estimation of high-resolution depth data from such sparse depth-measurements fused with RGB images seems to be a viable option for a close future. Learn a deep convolution neural network for dense depth reconstruction, given dataset (provided by thesis supervisor) captured by an autonomous car with calibrated (i) Velodyne sensor, (ii) cheap sparse depth-sensor and (iii) RGB camera.
- B or better result achieved in a programming oriented subject or even better: the active participation in a programming competition (e.g. CTU Open Contest, ACM ICPC).
- B or better result achieved in a computer vision oriented subject.
- experience with Python and Tensorflow
- good mathemathical background.
supervisor's web: http://cmp.felk.cvut.cz/~zimmerk/
|Pokyny:||(1) Study state-of-the-art methods such as [1,2].
(2) Propose and implement you own algorithm.
(3) Evaluate proposed method on a selected dataset such as .
|Literatura:|| Jiwon Kim, Jung Kwon Lee and Kyoung Mu Lee, 'Accurate Image Super-Resolution Using Very Deep Convolutional Networks', CVPR oral, 2016. http://cv.snu.ac.kr/research/VDSR/
|Max.number of students:||6|
|Booked students:||Dmitrii Noskov|