Inseye Inc. (20240319501). EYE TRACKING SYSTEM FOR VR/AR HMD UNITS INCLUDING PANCAKE LENS MODULES simplified abstract
Contents
EYE TRACKING SYSTEM FOR VR/AR HMD UNITS INCLUDING PANCAKE LENS MODULES
Organization Name
Inventor(s)
Klaudia Borowczyk of Beacon NY (US)
EYE TRACKING SYSTEM FOR VR/AR HMD UNITS INCLUDING PANCAKE LENS MODULES - A simplified explanation of the abstract
This abstract first appeared for US patent application 20240319501 titled 'EYE TRACKING SYSTEM FOR VR/AR HMD UNITS INCLUDING PANCAKE LENS MODULES
The abstract describes a virtual reality (VR) wearable assembly designed to be worn over a patient's eyes, including photosensor oculography (PSOG) assemblies for each eye.
- Wearable frame worn over patient's eyes
- PSOG assemblies mounted to frame next to each eye
- Each PSOG assembly includes display housing, micro-OLED display, eye tracking assembly, and pancake lens
Potential Applications: - Medical training simulations - Gaming and entertainment - Virtual tours and experiences
Problems Solved: - Enhanced eye tracking for VR experiences - Improved immersion and realism in virtual environments
Benefits: - Accurate eye tracking for precise interactions - Enhanced user experience in VR applications - Potential for new innovative VR experiences
Commercial Applications: Title: "Revolutionizing Virtual Reality Experiences with Advanced Eye Tracking Technology" This technology can be utilized in industries such as: - Healthcare for medical training simulations - Entertainment for immersive gaming experiences - Tourism for virtual tours and travel experiences
Questions about the technology: 1. How does the eye tracking technology in the VR wearable assembly work? 2. What are the potential limitations of using PSOG assemblies in VR applications?
Frequently Updated Research: Stay updated on advancements in VR technology, eye tracking systems, and virtual reality applications to explore new possibilities for this innovative wearable assembly.
Original Abstract Submitted
a virtual reality (vr) wearable assembly is described herein. the vr wearable assembly includes a wearable frame adapted to be worn over a patient's eyes and a pair of photosensor oculography (psog) assemblies mounted to the wearable frame such that each psog assembly is positioned adjacent a corresponding eye of the patient. each psog assembly includes a display housing having an inner surface defining an interior cavity extending between a first end and second end, a micro-oled display coupled to the display housing and positioned within the interior cavity adjacent the second end of the display housing, an eye tracking assembly coupled to the display housing and positioned adjacent the first end of the display housing, and a pancake lens mounted to the display housing and positioned within the interior cavity between the eye tracking assembly and the micro-oled display.