3D VR Waveguide-based Head Mounted Devices
NetAirus’ Designs and Methods Include:
- VAC Elimination
- Foveated Display System
- Peripheral Image Blur
- Variable Focus Lenses
- Retinal Imaging Eye Tracking
- Advanced Light Engine Designs
Overall VR Designs Considerations:
- Digital/Video See-though VR
- Optical See-through VR
- Optical Invariant Laws
- Stereoscopic Image Capture
- Visually Induced Motion Instabilities
- Human Depth of Focus Abilities
- Vergence Accommodation Conflict
- Laser Speckle
- Binocular Rivalry
- 3D VR CGH Software
Specific NetAirus’ Designs:
- Phase-only Spatial Light Modulators
- Amplitude Spatial Light Modulators
- HOE Waveguide Combiners
- SLMs Applied to ________
- Waveguide Optimization Software
- Coupler Designs Adapted to _______
- Proprietary Laser Array Designs
- LBS Designs Configured to ________
- Speckle Noise Reduction
- Proprietary Dynamic ________ Designs
- Exit Pupil Expansion (EPE) Designs
- 2D EPE Waveguide _______ Systems
- EPE Waveguide Designs Adapted to ________
- _______ Combined with Proprietary Waveguides
- Holograph Waveguide Combiners
- Proprietary __________ Type Coupler Designs
- HOE Waveguides Combined with _________
- 3D Stereoscopic VR System Designs
- Depth Extraction by Means of __________
- _______ Applied to Metasurface Systems
- Polarized Catadioptic Optics
- Pancake Lens Systems Adapted to _______
- See-through 3D Stereoscopic VR Designs
- Eliminating VAC via __________ Systems
- 3D Stereoscopic Disparity Vision Issues
- Stereoscopic Perception Instabilities
- Reducing Motion Artifacts by ________
- Depth Perception Errors Reduction
- Binocular Overlapping ______ Designs
- Mitigation of Binocular Rivalry Problems
Specific Netairus’ Designs (continued):
- 3D VR Systems Adapted to _________
- Proprietary VR Optical System Designs
- Proprietary _______ to Improve _______
- New ______ Technologies for VR
- High Dynamic Range ______ Methods
- Micro-display Light Engine Designs
- LBS-based Light Engines Adapted to _______
- Micro- LCOS Light Engine Designs
- Micro-OLED Display Designs
- Micro-QD iLEDs Adapted to ________
- QD Color Convertors Designs
- Advanced T-OLED Displays for _________
- Micro-displays Adapted to _________
- New _________ Type Cell Designs
- Proprietary ________ Addressed Displays
- Binocular ____ Pixel ______ System Designs
- Required Human Vision-Centric Designs
- New Vestibular Based Designs Applied to _______
- Reducing Undesirable Visual Effects in VR
- Controlling Temporal Perceptual Effects by _________
- Reducing Visually Motion Sickness Effects
- Power and Thermal Effects Reduction by ______
- Introducing Proprietary 5G Communication Designs
- Proprietary UIs for 3D VR Headsets using ________
- New Addressing Means Combined with ________
- Binocular ____ Pixel ______ Designs
NetAirus’ Artificial Intelligence Program Designs:
- AI and ML Programs Adapted to VR HMDs
- Conversational AI Combined with ________
- Recommendation AI Algorithms
- Supervised ML Algorithms Applied to ______
- Unsupervised ML Algorithms
- Reducing Training Data/Complexity by _______
- Input Space Dimensionality Issues
- Output Value Noise Mitigation by _______
- Path to Bias-variance tradeoff Designs
- AI/ML Program Setup via _______
(Trade secret matters in the above headings are redacted with underline markings)
Related Content/Links:
Although many researches have concluded that digital video see-through VR systems are easier to design and build than optical see-through AR headsets, there are still many design road blocks in VR systems that must be overcome. Probably, the leader in waveguide based 3D VR headsets is Facebook Inc., where their latest prototype product is the Oculus 2 headset. Facebook published a VR Grand Challenge to encourage companies in the field to improve VR interaction functions. Of course, there are many other companies working the 3D VR headset field. NetAirus distinguishes its VR designs from the others by development of new display technologies with improved diffractive or holographic waveguide optical combiners. NetAirus targets its AI/ML algorithms specifically for 3D VR headsets. In addition, NetAirus’ designs takes into consideration human vision aspects to reduce conflicts, instabilities, and visual discomfort.