ACEP FRANCE (20240210730). METHOD FOR SIMULATING OPTICAL PRODUCTS simplified abstract
METHOD FOR SIMULATING OPTICAL PRODUCTS
Organization Name
Inventor(s)
Jean-philippe Sayag of Paris (FR)
METHOD FOR SIMULATING OPTICAL PRODUCTS - A simplified explanation of the abstract
This abstract first appeared for US patent application 20240210730 titled 'METHOD FOR SIMULATING OPTICAL PRODUCTS
The abstract describes a method for simulating optical lenses in augmented reality using a mobile app with input and display peripherals. The method involves capturing data while the user looks at an object, then simulating a virtual lens superimposed on the user's environment.
- Capture phase involves acquiring data while the user looks at an object
- Data acquisition phase occurs during user interaction with the environment
- Simulation phase uses a processing unit to create and overlay a virtual lens on the user's surroundings
Potential Applications: - Augmented reality gaming - Virtual try-on for eyewear - Educational tools for optics and physics
Problems Solved: - Enhancing user experience in augmented reality - Providing a realistic simulation of optical lenses - Improving interaction with virtual objects in the environment
Benefits: - Immersive augmented reality experience - Accurate representation of optical effects - Enhanced learning opportunities in optics and physics
Commercial Applications: "Simulated Optical Lenses in Augmented Reality: Market Potential and Uses"
Questions about Simulated Optical Lenses in Augmented Reality: 1. How does this technology improve user engagement in augmented reality experiences? 2. What are the key advantages of simulating optical lenses in an augmented reality environment?
Frequently Updated Research: Stay updated on advancements in augmented reality technology and optical simulations for enhanced user experiences.
Original Abstract Submitted
a method for simulating optical lenses in augmented reality using a mobile apparatus including at least an input peripheral and a display peripheral, the method includes at least, a capture phase a data acquisition phase while the user is looking at an object in the environment, and a simulation phase performed by at least a processing unit allowing a virtual lens to be produced and superposed on at least an image of a user's environment.
