Texas instruments incorporated (20240113804). Code Block Segmentation and Configuration for Concatenated Turbo and RS Coding simplified abstract
Contents
- 1 Code Block Segmentation and Configuration for Concatenated Turbo and RS Coding
- 1.1 Organization Name
- 1.2 Inventor(s)
- 1.3 Code Block Segmentation and Configuration for Concatenated Turbo and RS Coding - A simplified explanation of the abstract
- 1.4 Simplified Explanation
- 1.5 Potential Applications
- 1.6 Problems Solved
- 1.7 Benefits
- 1.8 Potential Commercial Applications
- 1.9 Possible Prior Art
- 1.10 Original Abstract Submitted
Code Block Segmentation and Configuration for Concatenated Turbo and RS Coding
Organization Name
texas instruments incorporated
Inventor(s)
June Chul Roh of Allen TX (US)
Pierre Bertrand of Antibes (FR)
Code Block Segmentation and Configuration for Concatenated Turbo and RS Coding - A simplified explanation of the abstract
This abstract first appeared for US patent application 20240113804 titled 'Code Block Segmentation and Configuration for Concatenated Turbo and RS Coding
Simplified Explanation
The method described in the patent application involves segmenting and encoding code blocks for wireless transmission using concatenated forward error correction encoding. Here is a simplified explanation of the abstract:
- Receiving a transport block of data for transmission with a defined transport block size and target code rate parameters.
- Determining the number of inner code blocks needed to transmit the transport block.
- Calculating the number of outer code blocks based on the number of inner code blocks and encoding parameters.
- Segmenting and encoding the transport block according to the calculated encoding parameters.
Potential Applications
This technology can be applied in various wireless communication systems, such as 5G networks, satellite communication, and IoT devices.
Problems Solved
This technology helps in improving the reliability and efficiency of wireless transmission by using concatenated forward error correction encoding to enhance error correction capabilities.
Benefits
The benefits of this technology include increased data transmission reliability, improved error correction capabilities, and optimized bandwidth utilization in wireless communication systems.
Potential Commercial Applications
The technology can be utilized in telecommunications equipment, networking devices, and IoT devices to enhance data transmission reliability and efficiency.
Possible Prior Art
One possible prior art in this field is the use of Turbo codes and LDPC codes for error correction in wireless communication systems.
What are the specific parameters used for calculating the number of outer code blocks?
The specific parameters used for calculating the number of outer code blocks based on the number of inner code blocks are not explicitly mentioned in the abstract. Further details on the encoding parameters and calculations involved would provide a clearer understanding of this aspect.
How does the segmentation process optimize the wireless transmission efficiency?
The abstract does not delve into the specifics of how the segmentation process optimizes wireless transmission efficiency. Exploring the segmentation techniques and their impact on data transmission efficiency would shed light on this aspect.
Original Abstract Submitted
a method for performing code block segmentation for wireless transmission using concatenated forward error correction encoding includes receiving a transport block of data for transmission having a transport block size, along with one or more parameters that define a target code rate. a number n of inner code blocks needed to transmit the transport block is determined. a number m—outer code blocks may be calculated based on the number of inner code blocks and on encoding parameters for the outer code blocks. the transport block may then be segmented and encoded according to the calculated encoding parameters.
