LOW-POWER ARCHITECTURE FOR AUGMENTED REALITY DEVICE

Organization Name

Snap Inc.

Inventor(s)

Ashwani Arya of Cypress CA (US)

Alex Feinman of San Mateo CA (US)

Daniel Harris of San Francisco CA (US)

Tejas Bahulkar of Sunnyvale CA (US)

Dunxu Hu of Venice CA (US)

LOW-POWER ARCHITECTURE FOR AUGMENTED REALITY DEVICE - A simplified explanation of the abstract

This abstract first appeared for US patent application 20240013493 titled 'LOW-POWER ARCHITECTURE FOR AUGMENTED REALITY DEVICE

Simplified Explanation

The abstract describes a method for managing power resources in an augmented reality (AR) device. The method involves configuring a low-power mode and a high-power mode based on different sets of sensor data. The low-power mode runs on a low-power processor and operates a low-power application, while the high-power mode runs on a high-power processor and operates a high-power application. The AR device detects a request to operate the high-power application and activates the corresponding set of sensors.

• The method involves configuring a low-power mode and a high-power mode in an AR device.
• The low-power mode runs on a low-power processor and operates a low-power application.
• The high-power mode runs on a high-power processor and operates a high-power application.
• Different sets of sensor data are used for each mode.
• The AR device detects a request to operate the high-power application.
• The corresponding set of sensors is activated in response to the request.

Potential Applications:

• Efficient power management in AR devices.
• Extending battery life in AR devices.
• Optimizing performance based on application requirements.

Problems Solved:

• Power consumption in AR devices.
• Balancing power usage between low-power and high-power applications.
• Ensuring optimal performance without draining the battery quickly.

Benefits:

• Prolonged battery life in AR devices.
• Enhanced user experience by efficiently managing power resources.
• Flexibility to switch between low-power and high-power modes based on application needs.

Original Abstract Submitted

a method for managing power resource in an augmented reality (ar) device is described. in one aspect, the method includes configuring a low-power mode to run on a low-power processor of the ar device using a first set of sensor data, and a high-power mode to run on a high-power processor of the ar device using a second set of sensor data, operating, using the low-power processor, a low-power application in the low-power mode based on the first set of sensor data, detecting a request to operate a high-power application at the ar device, in response to detecting the request, activating the second set of sensors of the ar device corresponding to the high-power mode, and operating, using the high-power processor, a high-power application in the high-power mode based on the second set of sensors.