ULTRA-WIDEBAND POWER USAGE OPTIMIZATION

Organization Name

GOOGLE LLC

Inventor(s)

Sharath Ananth of Cupertino CA (US)

ULTRA-WIDEBAND POWER USAGE OPTIMIZATION - A simplified explanation of the abstract

This abstract first appeared for US patent application 18002040 titled 'ULTRA-WIDEBAND POWER USAGE OPTIMIZATION

Simplified Explanation: The patent application describes a method for a computing device to conserve power by setting its ultra-wideband component to a power-saving mode when it is near another device capable of ultra-wideband ranging.

Key Features and Innovation:

• Computing device determines proximity to another device via ultra-wideband ranging
• Second device identified as capable of ultra-wideband ranging with specific devices
• Ultra-wideband component of computing device set to power-saving mode when near second device

Potential Applications: This technology could be used in various applications such as:

• IoT devices
• Wearable technology
• Smart home systems

Problems Solved:

• Power consumption in devices
• Efficient use of ultra-wideband technology
• Seamless communication between devices

Benefits:

• Extended battery life
• Enhanced device connectivity
• Improved overall efficiency

Commercial Applications: The technology could be valuable in industries such as:

• Consumer electronics
• Healthcare
• Industrial automation

Prior Art: Prior art related to this technology may include research on ultra-wideband communication protocols and power-saving modes in electronic devices.

Frequently Updated Research: Stay updated on advancements in ultra-wideband technology, power-saving mechanisms, and device-to-device communication protocols.

Questions about Ultra-Wideband Ranging: 1. How does ultra-wideband ranging improve device connectivity? 2. What are the potential security implications of ultra-wideband ranging technology?

1. A relevant generic question not answered by the article, with a detailed answer. - How does ultra-wideband ranging differ from other wireless communication technologies? Ultra-wideband ranging uses a wide range of frequencies to accurately measure distances between devices, unlike traditional wireless technologies that operate on specific frequency bands for communication.

2. Another relevant generic question, with a detailed answer. - What are the advantages of using ultra-wideband ranging in IoT devices? Ultra-wideband ranging offers precise location tracking, low power consumption, and high data transfer rates, making it ideal for IoT devices that require efficient and reliable connectivity.

Original Abstract Submitted

A computing device may determine, via ultra-wideband ranging, that the computing device is proximate to a second computing device paired with the computing device. The computing device may determine that the second computing device is abie to perform ultra-wideband ranging with a particular set of one or more devices. The computing device may, in response to determining that the computing device is proximate to the second computing device and that the second computing device is able to perform ultra-wideband ranging with the particular set of one or more devices, set an ultra-wideband component of the computing device to a power-saving mode.