SYSTEM, METHOD, AND APPARATUS FOR DEVICE CONTROL BASED ON OPTICAL COMMUNICATION

Organization Name

Huawei Technologies Co., Ltd.

Inventor(s)

Gang Zheng of Dongguan (CN)

SYSTEM, METHOD, AND APPARATUS FOR DEVICE CONTROL BASED ON OPTICAL COMMUNICATION - A simplified explanation of the abstract

This abstract first appeared for US patent application 18489489 titled 'SYSTEM, METHOD, AND APPARATUS FOR DEVICE CONTROL BASED ON OPTICAL COMMUNICATION

Simplified Explanation

The abstract of this patent application describes a system for device control based on optical communication. The system includes a controller, an optical head-end, an optical terminal, and a field device. The controller communicates with the field device through the optical head-end, while the field device communicates with the controller through the optical terminal. The optical head-end and the optical terminal communicate with each other using an optical signal.

• The system enables device control using optical communication.
• A controller is used to communicate with a field device.
• The field device communicates with the controller through an optical terminal.
• The optical head-end facilitates communication between the controller and the field device.
• Communication between the optical head-end and the optical terminal is achieved using an optical signal.

Potential applications of this technology:

• Industrial automation: The system can be used in industrial settings to control and monitor devices using optical communication, providing a reliable and efficient solution.
• Smart homes: Optical communication can be utilized to control various devices in a smart home environment, enhancing automation and connectivity.
• Telecommunications: Optical communication can be employed for device control in telecommunications networks, improving efficiency and reliability.

Problems solved by this technology:

• Improved communication: Optical communication offers higher bandwidth and immunity to electromagnetic interference, resulting in more reliable and efficient device control.
• Compatibility: The system allows the integration of devices supporting optical communication into conventional control systems, enabling seamless communication between different components.
• Scalability: Optical communication can support a large number of devices, making it suitable for applications requiring control of multiple devices.

Benefits of this technology:

• Faster and more reliable communication: Optical communication provides faster data transfer rates and is less susceptible to signal degradation, ensuring reliable and efficient device control.
• Enhanced system integration: The system allows for the integration of devices supporting optical communication into existing control systems, improving overall system functionality.
• Increased scalability: Optical communication can support a large number of devices, allowing for the expansion of control systems without compromising performance.

Original Abstract Submitted

This application provides a system for device control based on optical communication. A device supporting optical communication is introduced into a conventional system for device control. The system includes a first controller, a first optical head-end, a first optical terminal, and a first field device. The first controller communicates with the first field device through the first optical head-end. The first field device communicates with the first controller through the first optical terminal. The first optical head-end communicates with the first optical terminal through an optical signal.