MSc Dissertation Proposal 2016/2017
Disparity Estimation using Plenoptic
Cameras
-- Project Description at Fenix:
Objectives
The appearance of the
first commercial versions of plenoptic cameras (Lytro and Raytrix) had raise
interest in these cameras by the research community. Also, some players like
NVIDIA and Adobe had created prototypes using this technology to create new
types of displays: near-eye displays and 3D displays. Recently, Lytro has launched a video camera for cinema that will
benefit of the extra information given by the lightfield.
The objectives of this
work are:
1.
Disparity
estimation using anisotropic structure tensor and epipolar
volume.
2.
Improve disparity
estimation using a denoising method.
3.
Evaluate and compare the
disparity estimation accuracy obtained from the anisotropic structure tensor
and the epipolar volume with the disparity estimation
obtained from the isotropic structure tensor.
Requirements
N.A.
Place for conducting the
work-proposal:
ISR / IST
Observations
Conventional cameras
give information about the total amount of light that reaches each position of
the sensor. In the process of image formation there is some information of the lightfield that is lost, for example, the direction and
contribution of each ray to the total amount of light captured on an image.
This information is preserved in plenoptic cameras.
On the other hand, plenoptic cameras make a trade-off between spatial and
angular resolution which normally results in images with low spatial
resolution. Therefore, plenoptic images are normally
considered for superresolution techniques that
require the knowledge of the disparity map. Since the disparity map is unknown,
it must be recovered from the lightfield captured.
Common techniques to estimate disparity are based on the epipolar
geometry obtained from the lightfield in a single
acquisition. These analyses add noise to the disparity estimation, therefore,
regularization schemes are useful to improve the disparity estimations obtained
using these methods. The knowledge of this disparity map is not only important
for superresolution. The disparity map will aid on
other tasks like 3D segmentation and will also allow to obtain
3D features that will aid in classification.
The workplan
consists on the implementation of a denoising method
and two variants of the existing algorithm for disparity and depth estimation
using lightfield data: using an anisotropic structure
tensor to obtain the disparity/depth estimates, and using epipolar
volumes to obtain disparity/depth information. These algorithms should be
applied to synthetic and real datasets and the results should be compared with
the disparity/depth estimation using the isotropic structure tensor. The
sensibility of these methods to noise should also be evaluated.
-- More Information
More
MSc dissertation proposals on Computer and Robot
Vision in:
http://omni.isr.ist.utl.pt/~jag