Optimized Eco-system Design with Thread Devices

Organization Name

Apple Inc.

Inventor(s)

Yaranama Venkata Ramana Dass of Cupertino CA (US)

Camille Chen of Cupertino CA (US)

Hsin-Yao Chen of Castro Valley CA (US)

Paul V. Flynn of Menlo Park CA (US)

Sarvesh Kumar Varatharajan of Cupertino CA (US)

Ye Chen of Sunnyvale CA (US)

Optimized Eco-system Design with Thread Devices - A simplified explanation of the abstract

This abstract first appeared for US patent application 17874020 titled 'Optimized Eco-system Design with Thread Devices

Simplified Explanation

The patent application describes systems, methods, and mechanisms to improve the performance of border routers across Thread, Wi-Fi, and Bluetooth protocols. It includes mechanisms for optimizing coexistence and frequency selection with Wi-Fi and Bluetooth, a design for co-located Wi-Fi/Bluetooth/Thread coexistence border routers, and dynamic adjustment for Thread energy detection.

• The patent application proposes mechanisms to enhance the performance of border routers across Thread, Wi-Fi, and Bluetooth protocols.
• It includes mechanisms for optimizing coexistence and frequency selection with Wi-Fi and Bluetooth, ensuring efficient use of available frequencies.
• The application also presents a design for co-located Wi-Fi/Bluetooth/Thread coexistence border routers, enabling seamless integration and communication between these protocols.
• Additionally, the patent application suggests dynamic adjustment for Thread energy detection, allowing for efficient energy usage in Thread networks.

Potential Applications

This technology has potential applications in various industries and scenarios, including:

• Smart homes: Enhancing the performance and coexistence of different wireless protocols used in smart home devices, such as smart speakers, thermostats, and security systems.
• Industrial IoT: Improving the connectivity and efficiency of border routers in industrial IoT networks, enabling seamless communication between different devices and protocols.
• Healthcare: Enhancing the performance and coexistence of wireless protocols in healthcare settings, facilitating the integration of medical devices and improving patient monitoring systems.

Problems Solved

The technology presented in the patent application addresses several problems, including:

• Coexistence challenges: Solving the issues related to the coexistence of Thread, Wi-Fi, and Bluetooth protocols, ensuring optimal performance and efficient use of available frequencies.
• Border router design: Providing a design for co-located Wi-Fi/Bluetooth/Thread coexistence border routers, enabling seamless integration and communication between these protocols.
• Energy efficiency: Dynamic adjustment for Thread energy detection helps optimize energy usage in Thread networks, improving overall efficiency.

Benefits

The technology described in the patent application offers several benefits, including:

• Enhanced performance: The proposed mechanisms improve the performance of border routers across Thread, Wi-Fi, and Bluetooth protocols, ensuring efficient communication and reduced interference.
• Improved coexistence: Optimized coexistence and frequency selection mechanisms enable seamless integration and coexistence of different wireless protocols, reducing interference and improving overall network performance.
• Energy efficiency: Dynamic adjustment for Thread energy detection helps conserve energy in Thread networks, prolonging battery life and improving energy efficiency.

Original Abstract Submitted

Systems, methods, and mechanisms to enhance border router performance across Thread, Wi-Fi, and Bluetooth protocols, including mechanisms for Thread network mesh reconfiguration for optimized/enhanced coexistence and frequency selection with Wi-Fi and Bluetooth, co-located Wi-Fi/Bluetooth/Thread coexistence border router design, and dynamic adjustment for Thread energy detection (ED).