Wearable VR/AR (passthrough) display development featuring Panamorph’s patented
| Modulated Subpupil Lighting Technologies |
| Leveraging eye pupil tracking to turn off light missing the eye pupil center dramatically increases edge-to-edge image clarity and contrast, reduces power usage and heat by over 90%, and increases depth of focus for decreased vergence accommodation conflict. |
Development of core technologies in support of wearable displays has been in the DNA of Panamorph and its affiliate pursuits since the early 1990s. Panamorph is now applying these patented and patent-pending technologies to the development of next generation optical displays in collaboration with license or acquisition partners for ultimate product integration. For general concepts see our White Paper on Next Generation Wearable VR Displays using Modulated Subpupil Lighting. The above illustration uses a pancake lens as one example of an optical magnifier and a waveguide display as one example of independently controllable light sources. Panamorph’s VR/AR solutions are represented in whole or in part by elements of the following issued patents (other US and international patents pending) …
US 11,733,532-B2 Near-Eye Display System using Modulated Subpupils (Overlapping Subpupils)
US 11,681,150-B2 Near-Eye Display System using Modulated Subpupils (Responsive to Eye Tracking)
US 11,663,942-B1 Near-Eye Display System using Modulated Subpupils (Curved Exit Pupil)
US 11,493,773 Near-Eye Display System using Modulated SubPupils (Pancake Lens Magnifier)
US 11,620,775-B2 Image Processing System and Method (Client Side Bandwidth-Responsive Fade-in)
US 11,736,648-B2 Image Processing System and Method (Lossless Progressive Image Encoding/Decoding Using Single Color Channel)
US 11,620,775-B2 Image Processing System and Method (On-Demand Resolution Responsive to User Interaction)
US 11,350,015 Image Processing System and Method (General Noise Removal)
US 11,297,203 Image Processing System and Method (Lossy Progressive Image Encoding/Decoding Using Single Color Channel)
US 10,554,856 Image Processing System and Method (Noise Removal for Extended Bit Depth)
US 9,774,761 Image Processing System and Method (Deep Color Decoding)
US 9,584,701 Image Processing System and Method (Deep Color Encoding)
India 383,139 Image Processing System and Method (Progressive Imaging)
US 8,855,195 Image Processing System and Method (Lossless and Estimated Progressive Image Decoding)
US 8,798,136 Image Processing System and Method (Lossless Progressive Image Encoding)
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