Qualcomm incorporated (20240223305). PARALLEL QDM ENCODING simplified abstract
Contents
PARALLEL QDM ENCODING
Organization Name
Inventor(s)
Ori Shental of Marlboro NJ (US)
Thomas Joseph Richardson of South Orange NJ (US)
PARALLEL QDM ENCODING - A simplified explanation of the abstract
This abstract first appeared for US patent application 20240223305 titled 'PARALLEL QDM ENCODING
The present disclosure describes a technique for parallel distribution matching (DM) encoding, where a user equipment (UE) performs a first round of parallel DM encoding using k information bits as input. This involves segmenting the k information bits into n blocks and encoding them in parallel with n DM blocks, outputting one or more encoded information bits in each DM block.
Key Features and Innovation:
- Technique for parallel DM encoding using k information bits
- Segmentation of information bits into n blocks for encoding
- Output of encoded information bits in parallel with DM blocks
- Second round of parallel DM encoding for remaining k' information bits
Potential Applications:
- Wireless communication systems
- Data transmission and encoding technologies
- Error correction and detection mechanisms
Problems Solved:
- Efficient encoding of information bits in parallel
- Reduction of processing time for encoding large amounts of data
- Improved reliability and accuracy in data transmission
Benefits:
- Faster encoding of information bits
- Enhanced data transmission efficiency
- Increased reliability in wireless communication systems
Commercial Applications:
- Telecommunications industry for improving data transmission
- IoT devices for efficient communication
- Satellite communication systems for reliable data transfer
Prior Art: Prior art related to this technology may include research papers on parallel encoding techniques in wireless communication systems.
Frequently Updated Research: Researchers are constantly exploring new methods for improving data encoding and transmission in wireless communication systems.
Questions about Parallel Distribution Matching (DM): 1. How does parallel DM encoding improve data transmission efficiency? 2. What are the potential challenges of implementing parallel DM encoding in practical systems?
Original Abstract Submitted
certain aspects of the present disclosure provide a technique for parallel distribution matching (dm) encoding. a user equipment (ue) implements the technique to perform a first round of parallel dm encoding using k information bits as input by: 1) segmenting the k information bits into n blocks of information bits, and 2) encoding the n blocks of information bits in parallel with n dm blocks. each of the n blocks outputs one or more encoded information bits in each of the ndm blocks, and a total number of information bits output by the n dm blocks is less than k. the ue then performs a second round of parallel dm encoding using k′ information bits that were not encoded in the first round of dm encoding. the second round of parallel dm encoding includes a same encoding process as implemented in the first round of parallel dc encoding.