Huawei technologies co., ltd. (20240204913). SYSTEMS AND METHODS FOR EXECUTING FORWARD ERROR CORRECTION DECODING USING A GUESSING RANDOM ADDITIVE NOISE DECODING ALGORITHM simplified abstract
SYSTEMS AND METHODS FOR EXECUTING FORWARD ERROR CORRECTION DECODING USING A GUESSING RANDOM ADDITIVE NOISE DECODING ALGORITHM
Organization Name
Inventor(s)
Yoones Hashemi Toroghi of Stittsville (CA)
Bashirreza Karimi of Ottawa (CA)
Hamid Ebrahimzad of Ottawa (CA)
SYSTEMS AND METHODS FOR EXECUTING FORWARD ERROR CORRECTION DECODING USING A GUESSING RANDOM ADDITIVE NOISE DECODING ALGORITHM - A simplified explanation of the abstract
This abstract first appeared for US patent application 20240204913 titled 'SYSTEMS AND METHODS FOR EXECUTING FORWARD ERROR CORRECTION DECODING USING A GUESSING RANDOM ADDITIVE NOISE DECODING ALGORITHM
The abstract describes a patent application related to forward error correction decoding, which involves processing a stream of real data symbols from a communication medium arranged in a real matrix. Virtual data symbols are generated using an interleaver map to create a virtual matrix. Codewords formed by a main matrix comprising the real and virtual matrices are decoded iteratively, with a system executing the decoding process.
- The innovation involves acquiring real data symbols from a communication medium and generating virtual data symbols using an interleaver map.
- Codewords are formed by combining real and virtual matrices, which are iteratively decoded to correct errors in the data stream.
- The decoding process includes identifying received rows, accessing reference codewords, and executing a grand algorithm to generate substitute codewords when needed.
- The system executing the forward error correction decoding consists of a processor and memory components.
- This innovation aims to improve the accuracy and reliability of data transmission by correcting errors in the received data stream.
Potential Applications: - Telecommunications - Data storage systems - Satellite communication - Wireless networks
Problems Solved: - Error correction in data transmission - Improving data reliability - Enhancing communication system performance
Benefits: - Increased data accuracy - Enhanced reliability of communication systems - Improved overall system performance
Commercial Applications: Title: Enhanced Error Correction Technology for Communication Systems This technology can be utilized in various industries such as telecommunications, data storage, satellite communication, and wireless networks to improve the accuracy and reliability of data transmission. By implementing this innovation, companies can enhance their communication systems' performance and ensure the integrity of transmitted data.
Questions about Forward Error Correction Decoding: 1. How does forward error correction decoding improve data reliability in communication systems? Forward error correction decoding helps correct errors in the received data stream, ensuring accurate transmission and enhancing the reliability of communication systems. 2. What are the key components of the system executing the forward error correction decoding process? The system comprises a processor and memory components that work together to acquire, process, and decode the data stream, improving the accuracy and reliability of data transmission.
Original Abstract Submitted
forward error correction decoding is executed by acquiring a stream of real data symbols from a communication medium, the stream of real data symbols being arranged in a real matrix. virtual data symbols are generated and arranged in a virtual matrix by applying an interleaver map onto the real matrix. codewords formed by a main matrix formed by the real matrix and the virtual matrix are iteratively decoded, an iteration of the decoding comprising identifying a set of consecutive received rows of the main matrix, accessing a set of pre-determined reference codewords and in response to determining that a given codeword of the set of consecutive received rows does not match any pre-determined reference codewords, executing a grand algorithm on the given codeword, the grand algorithm generating a substitute codeword for the given codeword. a system comprising a processor and a memory executes the forward error correction decoding.
