FORWARD ERROR CORRECTION CODE FEC DESIGN METHOD AND RELATED DEVICE

Organization Name

HUAWEI TECHNOLOGIES CO., LTD.

Inventor(s)

Xiaowei Li of Shenzhen (CN)

Zhenxing Zhang of Shenzhen (CN)

Junhao Jin of Shenzhen (CN)

Zhigui Wei of Shenzhen (CN)

FORWARD ERROR CORRECTION CODE FEC DESIGN METHOD AND RELATED DEVICE - A simplified explanation of the abstract

This abstract first appeared for US patent application 18455266 titled 'FORWARD ERROR CORRECTION CODE FEC DESIGN METHOD AND RELATED DEVICE

Simplified Explanation

The abstract of this patent application describes an application that provides methods and devices for forward error correction (FEC) code design. FEC is a technique used to detect and correct errors in data transmission.

• The application includes a method for determining the number of transmission lanes needed to transmit data.
• It also includes a method for determining multiple FEC working areas based on the number of transmission lanes.
• Each FEC working area is used to perform error checking and correction on the data.
• The data on each transmission lane is evenly allocated to the FEC working areas.
• The data received by each FEC working area is processed using the FEC working areas.

Potential Applications

• Data transmission systems that require error detection and correction.
• Communication networks where reliable data transmission is crucial.
• Wireless communication systems that need to minimize errors in data transmission.

Problems Solved

• Errors in data transmission can lead to corrupted or incomplete data.
• Traditional error correction methods may not be efficient or effective.
• This application provides a method to evenly distribute data for error correction, improving the reliability of data transmission.

Benefits

• Improved accuracy and reliability of data transmission.
• Efficient allocation of data for error correction.
• Simplified design and implementation of FEC codes.

Original Abstract Submitted

This application provides example forward error correction (FEC) code design methods and example related devices. One example method includes determining a quantity of transmission lanes for transmitting data. A plurality of FEC working areas can be determined based on the quantity of transmission lanes, where a quantity of the plurality of FEC working areas is the same as the quantity of transmission lanes, and the plurality of FEC working areas are for performing check and error correction on the data. The data on a transmission lane of the transmission lanes can be evenly allocated to each of the plurality of FEC working areas. The data received by each of the plurality of FEC working areas can be processed by using the plurality of FEC working areas.