SYNCHRONIZATION ESTIMATION BASED ON ULTRA-WIDEBAND CONNECTIONS

Organization Name

apple inc.

Inventor(s)

Yann Ly-gagnon of San Francisco CA (US)

Arun Unkn of Cupertino CA (US)

Langford M. Wasada of Poway CA (US)

SYNCHRONIZATION ESTIMATION BASED ON ULTRA-WIDEBAND CONNECTIONS - A simplified explanation of the abstract

This abstract first appeared for US patent application 20240334361 titled 'SYNCHRONIZATION ESTIMATION BASED ON ULTRA-WIDEBAND CONNECTIONS

Simplified Explanation

The example system described in the abstract involves a mobile device with an application processor, a transceiver, and a controller. The controller receives a clock synchronization request from a remote device over a wireless link and sends a response to synchronize the clocks of both devices.

• The system includes an application processor, a transceiver, and a controller.
• The controller receives a clock synchronization request from a remote device.
• The response generated by the controller synchronizes the clocks of the remote and local devices.
• The response is sent back to the remote device via the transceiver.

Key Features and Innovation

• Clock synchronization between a mobile device and a remote device.
• Use of a transceiver and controller to handle synchronization requests.
• Wireless communication link for data exchange.
• Firmware layer associated with the transceiver for efficient operation.
• Real-time clock adjustment for accurate synchronization.

Potential Applications

• IoT devices requiring precise time synchronization.
• Industrial automation systems for coordinated operations.
• Telecommunication networks for accurate data transmission.
• Mobile devices in proximity-based services.
• Smart home devices for seamless connectivity.

Problems Solved

• Ensuring accurate clock synchronization between remote and local devices.
• Facilitating seamless communication between devices.
• Eliminating timing discrepancies in data exchange.
• Enhancing the efficiency of time-sensitive applications.
• Improving overall system performance.

Benefits

• Improved data accuracy and reliability.
• Enhanced communication efficiency.
• Seamless integration of devices in a network.
• Reduced latency in data transmission.
• Better coordination in time-sensitive operations.

Commercial Applications

Clock Synchronization Technology for IoT Devices

This technology can be utilized in IoT devices to ensure precise time synchronization for seamless data exchange and coordinated operations. Industries such as manufacturing, healthcare, and logistics can benefit from this innovation by improving efficiency and accuracy in their processes.

Questions about Clock Synchronization Technology

How does clock synchronization benefit IoT devices?

Clock synchronization ensures that IoT devices operate in perfect harmony, enabling seamless communication and coordinated actions.

What industries can benefit the most from clock synchronization technology?

Industries such as manufacturing, healthcare, and logistics can benefit significantly from clock synchronization technology by improving efficiency and accuracy in their operations.

Original Abstract Submitted

an example system includes an application processor (ap), a transceiver associated with a firmware layer and a controller. the controller is configured to perform operations that include receiving data representing a clock synchronization request from a remote device, such as a uwb clock synchronization request. the request is received by the transceiver over a wireless communication link. the controller generates a response to the synchronization request. the response is configured for synchronizing a remote clock of the remote device and a local clock of the mobile device. the controller sends, to the remote device by the transceiver, the response to the synchronization request.