Motion-Induced Blurring to Reduce Scintillations and an Appearance of a Boundary Separating Regions of a Display

Organization Name

GOOGLE LLC

Inventor(s)

Jonathan Blair Phillips of San Jose CA (US)

Motion-Induced Blurring to Reduce Scintillations and an Appearance of a Boundary Separating Regions of a Display - A simplified explanation of the abstract

This abstract first appeared for US patent application 18546240 titled 'Motion-Induced Blurring to Reduce Scintillations and an Appearance of a Boundary Separating Regions of a Display

Simplified Explanation

The patent application describes techniques and devices for reducing motion-induced blurring on a display by placing sensors underneath regions of the display and adjusting the amount of blurring based on the speed of moving content.

• Sensors such as cameras, microphones, biometric sensors, ambient light sensors, and radar sensors may be placed underneath regions of a display.
• Placing sensors underneath regions of a display can result in reduced pixel-density, causing scintillations of the content as it moves on the display.
• The techniques described in the patent application address the undesirable effects of reduced pixel-density by blurring content moving within regions of low resolution.
• The amount of blurring can be adjusted based on the speed of the moving content, reducing the appearance of a boundary separating regions of differing resolutions on the display.

Potential Applications

The technology could be applied in various display systems, such as digital signage, interactive displays, and augmented reality devices.

Problems Solved

The technology solves the issue of scintillations and the appearance of boundaries between regions of differing resolutions on a display.

Benefits

The benefits of this technology include improved visual quality, reduced motion-induced blurring, and a seamless transition between regions of differing resolutions on a display.

Potential Commercial Applications

Potential commercial applications of this technology include high-resolution displays for gaming, virtual reality, and professional video editing.

Possible Prior Art

One possible prior art for this technology could be image processing techniques used in video editing software to reduce motion blur.

Unanswered Questions

How does this technology impact power consumption in display devices?

The patent application does not provide information on how this technology may affect the power consumption of display devices. It would be interesting to know if the additional processing required for motion-induced blurring has any impact on energy efficiency.

Are there any limitations to the speed at which the content can move before blurring becomes ineffective?

The patent application does not mention any limitations on the speed of moving content that may affect the effectiveness of the blurring technique. It would be important to understand if there are any thresholds beyond which the blurring technique may not be effective.

Original Abstract Submitted

This document describes techniques and devices for motion-induced blurring to reduce an appearance of a boundary separating regions of a display. Sensors (e.g., cameras, microphones, biometric sensors, ambient light sensors, radar sensors, and so forth) may be placed at least partially underneath regions of a display. Placing a sensor underneath a region of a display, however, often requires reduced pixel-density (e.g., relatively low resolution), which can cause scintillations of the content as it moves on the display. The techniques described herein address some undesirable effects of this reduced pixel-density by blurring content moving within regions of low resolution. Furthermore, the techniques can adjust an amount of blurring based on a speed of the moving content. Thus, when the display includes regions of differing resolutions, the techniques described herein can blur the moving content to reduce the appearance of a boundary separating these regions of differing resolutions.