Floorplan Transformation Matrix Generation for Augmented-Reality System

Organization Name

ARway Corporation

Inventor(s)

Daniel T. Yu of Cupertino CA (US)

Shadnam S. Khan of Toronto (CA)

Nima Sarshar of Miami FL (US)

Nikhil of Rajasthan (IN)

Floorplan Transformation Matrix Generation for Augmented-Reality System - A simplified explanation of the abstract

This abstract first appeared for US patent application 20240296257 titled 'Floorplan Transformation Matrix Generation for Augmented-Reality System

Simplified Explanation: An augmented reality (AR) system creates a transformation matrix for conversions between real and virtual spaces based on a given floorplan indicating the physical locations of location markers.

Key Features and Innovation:

• AR system generates a transformation matrix for real and virtual space conversions.
• Uses location markers in the physical space to create the transformation matrix.
• Compares pose data of images captured by a content-generating device to the floorplan's location markers.
• Updates position component based on discrepancies between predicted and actual physical locations.
• Stores the transformation matrix for future use.

Potential Applications: This technology can be used in:

• Indoor navigation systems.
• Architectural design and visualization.
• Virtual tours of real estate properties.
• Gaming and entertainment applications.
• Training simulations for various industries.

Problems Solved:

• Simplifies the process of converting between real and virtual spaces.
• Enhances accuracy in AR applications by using physical location markers.
• Improves user experience in navigating virtual environments.

Benefits:

• Seamless integration of virtual elements into real-world spaces.
• Enhanced spatial awareness for users.
• Efficient creation of AR experiences based on physical locations.
• Improved accuracy and precision in AR applications.

Commercial Applications: Potential commercial uses include:

• Real estate virtual tours.
• Retail store navigation apps.
• Training simulations for industries like healthcare and manufacturing.
• Location-based gaming experiences.
• Architectural and interior design visualization tools.

Questions about Augmented Reality Transformation Matrix: 1. How does the AR system use location markers to create the transformation matrix? 2. What are the advantages of updating the position component based on discrepancies in physical locations?

Frequently Updated Research: Stay updated on advancements in AR technology, spatial computing, and indoor navigation systems for potential improvements in the AR transformation matrix process.

Original Abstract Submitted

an augmented reality (ar) system creates a transformation matrix for conversions between real and virtual spaces based on a given floorplan indicating the physical locations of location markers. these markers may include machine-readable labels or identifiable landmarks. the ar system receives images of the physical space from a content-generating device, along with each image's pose data, indicating the device's position when capturing the image. the system generates a transformation matrix by comparing pose data for each image to the floorplan's indicated location marker. the system may update a position component based on discrepancies between predicted and actual physical locations. this transformation matrix, associated with the specific physical space, is stored for future use.