WEARABLE DEVICE LOCATION SYSTEMS ARCHITECTURE

Organization Name

Snap Inc.

Inventor(s)

Yu Jiang Tham of Los Angeles CA (US)

John James Robertson of Los Angeles CA (US)

Gerald Nilles of Culver City CA (US)

Jason Heger of Louisville CO (US)

Praveen Babu Vadivelu of Erie CO (US)

WEARABLE DEVICE LOCATION SYSTEMS ARCHITECTURE - A simplified explanation of the abstract

This abstract first appeared for US patent application 18623770 titled 'WEARABLE DEVICE LOCATION SYSTEMS ARCHITECTURE

Simplified Explanation: The patent application describes methods to improve the performance of wearable electronic devices in location management processes by reducing time to first fix of location operations and optimizing power consumption.

Key Features and Innovation:

• Low-power circuitry manages high-speed circuitry and location circuitry to provide location assistance data automatically.
• High-speed circuitry is returned to a low-power state after capturing content associated with location fix initiation.
• High-speed circuitry is booted after completion of a location fix to update location data associated with content.

Potential Applications: This technology can be applied in wearable devices such as smartwatches, fitness trackers, and other location-based devices to enhance location accuracy and power efficiency.

Problems Solved: This technology addresses the challenges of improving location accuracy and power consumption in wearable electronic devices.

Benefits:

• Enhanced performance of wearable electronic devices in location management processes.
• Reduced time to first fix of location operations.
• Improved power efficiency for prolonged device usage.

Commercial Applications: Potential commercial applications include smart wearable devices for fitness tracking, navigation, and location-based services in various industries such as healthcare, sports, and logistics.

Prior Art: Readers can explore prior art related to location management processes in wearable electronic devices by researching patents in the field of wearable technology and location-based services.

Frequently Updated Research: Researchers are continually exploring advancements in location management processes for wearable electronic devices to further enhance performance and efficiency.

Questions about Location Management Processes in Wearable Electronic Devices: 1. How does the low-power circuitry in wearable electronic devices contribute to improving location accuracy? 2. What are the potential implications of optimizing power consumption in wearable devices for location-based services?

Original Abstract Submitted

Systems, methods, devices, computer readable media, and other various embodiments are described for location management processes in wearable electronic devices. Performance of such devices is improved with reduced time to first fix of location operations in conjunction with low-power operations. In one embodiment, low-power circuitry manages high-speed circuitry and location circuitry to provide location assistance data from the high-speed circuitry to the low-power circuitry automatically on initiation of location fix operations as the high-speed circuitry and location circuitry are booted from low-power states. In some embodiments, the high-speed circuitry is returned to a low-power state prior to completion of a location fix and after capture of content associated with initiation of the location fix. In some embodiments, high-speed circuitry is booted after completion of a location fix to update location data associated with content.