Add to ORKGIn this project report, we focuses on Tensor Display, a form of compressive light field display. Firstly, research study had been done to better understand the technology involved in the light field reconstruction. This is important as the basic concept would be required to recreate a new prototype which would be an enhancement of the current one we have in NTU in terms of both the hardware and software. This new Tensor display prototype would then be used to carry out further experiments to improve on the 3D quality display on this technology. Some of the experiments include the crucial colour and luminance that have a great impact on 3D display imaging, the field of view ...
Figure 1: Adaptive light field synthesis for a dual-layer compressive display. By combining sampling...
A computational multilayer light field (MLLF) 3D display, which recreates multiple directional views...
Light Field imaging is a promising technology that allows to capture the whole set of light rays in ...
In this project report, we focuses on Tensor Display, a form of compressive light fie...
The development of a true three-dimensional display that can recreate the light field of an object ...
Figure 1: Wide field of view glasses-free 3D display using tensor displays. (Left) We introduce a ne...
The development of a true three-dimensional display that can recreate the light field of an object ...
Conventional stereoscopic 3D displays, which present a pair of stereoscopic images on a single plane...
Interest in three dimensional (3D) display technologies greatly increased over the years and the abi...
Figure 1: Compressive light field projection for glasses-free 3D display. The system comprises a sin...
Interest in three dimensional (3D) display technologies greatly increased over the years and the abi...
Increasing the field of view of a holographic display while maintaining adequate image size is a dif...
One of the key issues in conventional stereoscopic displays is the well-known vergence-accommodation...
Tensor displays are screens able to render a light field with correct depth perception without weari...
In recent years, light field technology has attracted the interest of academia and industry, thanks ...
Figure 1: Adaptive light field synthesis for a dual-layer compressive display. By combining sampling...
A computational multilayer light field (MLLF) 3D display, which recreates multiple directional views...
Light Field imaging is a promising technology that allows to capture the whole set of light rays in ...
In this project report, we focuses on Tensor Display, a form of compressive light fie...
The development of a true three-dimensional display that can recreate the light field of an object ...
Figure 1: Wide field of view glasses-free 3D display using tensor displays. (Left) We introduce a ne...
The development of a true three-dimensional display that can recreate the light field of an object ...
Conventional stereoscopic 3D displays, which present a pair of stereoscopic images on a single plane...
Interest in three dimensional (3D) display technologies greatly increased over the years and the abi...
Figure 1: Compressive light field projection for glasses-free 3D display. The system comprises a sin...
Interest in three dimensional (3D) display technologies greatly increased over the years and the abi...
Increasing the field of view of a holographic display while maintaining adequate image size is a dif...
One of the key issues in conventional stereoscopic displays is the well-known vergence-accommodation...
Tensor displays are screens able to render a light field with correct depth perception without weari...
In recent years, light field technology has attracted the interest of academia and industry, thanks ...
Figure 1: Adaptive light field synthesis for a dual-layer compressive display. By combining sampling...
A computational multilayer light field (MLLF) 3D display, which recreates multiple directional views...
Light Field imaging is a promising technology that allows to capture the whole set of light rays in ...