VIRTUAL COMPENSATION OF CAMERA POSITIONS IN A LIGHT FIELD DISPLAY

Organization Name

google llc

Inventor(s)

[[:Category:Guillermo Fabian D�az Lankenau of Santa Cruz CA (US)|Guillermo Fabian D�az Lankenau of Santa Cruz CA (US)]][[Category:Guillermo Fabian D�az Lankenau of Santa Cruz CA (US)]]

Antonio Yamil Layon Halun of Mountain View CA (US)

VIRTUAL COMPENSATION OF CAMERA POSITIONS IN A LIGHT FIELD DISPLAY - A simplified explanation of the abstract

This abstract first appeared for US patent application 20240340399 titled 'VIRTUAL COMPENSATION OF CAMERA POSITIONS IN A LIGHT FIELD DISPLAY

• • Simplified Explanation:**

The patent application describes a system where low-cost sensors are attached to a 3D light field display to measure strain or temperature variations. These sensors are correlated with camera motion to predict changes in camera positions in real time.

• • Key Features and Innovation:**
• Low-cost sensors mounted on a 3D light field display
• Sensors correlated with camera motion to predict changes in camera positions
• Machine learning used to establish correlation between sensor measurements and camera motion
• Real-time measurements of the display to instantly predict changes in camera positions
• Updated camera positions used to produce a stereoscopic effect in images

• • Potential Applications:**
• 3D displays
• Virtual reality systems
• Augmented reality applications
• Monitoring structural deformations
• Predicting camera positions in real time

• • Problems Solved:**
• Predicting camera positions accurately in response to display deformations
• Enhancing stereoscopic effects in images
• Real-time monitoring of strain or temperature variations

• • Benefits:**
• Improved accuracy in predicting camera positions
• Enhanced visual effects in images
• Real-time monitoring of display deformations
• Cost-effective solution with low-cost sensors

• • Commercial Applications:**
• "Real-Time Camera Position Prediction System for 3D Displays: Market Implications and Commercial Uses"

• • Questions about the Technology:**

1. How does the system use machine learning to establish a correlation between sensor measurements and camera motion? 2. What are the potential cost savings associated with using low-cost sensors in this system?

Original Abstract Submitted

systems and methods are disclosed in which low-cost sensors are mounted onto a 3d light field display to measure variations in strain or temperature. the sensors can be mounted to a common backplate with the cameras to correlate camera motion in response to thermally-induced deformation of the display. once a correlation between the sensor measurements and camera motion is pre-established, for example, by using machine learning, the resulting system model can be used so that real time measurements of the display can instantly predict changes in camera positions at any given time. updated camera positions can then be used when combining images to produce a stereoscopic effect.