18640394. SAMPLE-LEVEL ERROR-CORRECTING CODE simplified abstract (QUALCOMM Incorporated)
Contents
SAMPLE-LEVEL ERROR-CORRECTING CODE
Organization Name
Inventor(s)
Ori Shental of Marlboro NJ (US)
Meilong Jiang of Westfield NJ (US)
Ashwin Sampath of Skillman NJ (US)
Ahmed Bedewy of Hillsborough NJ (US)
SAMPLE-LEVEL ERROR-CORRECTING CODE - A simplified explanation of the abstract
This abstract first appeared for US patent application 18640394 titled 'SAMPLE-LEVEL ERROR-CORRECTING CODE
The present disclosure pertains to wireless communication, where a first wireless communication device encodes data by adding time domain complex samples to real samples, transmitting the encoded data to a second device.
- First wireless communication device encodes data by adding time domain complex samples to real samples
- Function of the time domain complex samples is a known value, a sum of exponentials
- Encoded data is transmitted to a second wireless communication device
Potential Applications: - Wireless communication systems - Data encoding and transmission technologies
Problems Solved: - Efficient encoding of data for wireless transmission - Improved communication reliability
Benefits: - Enhanced data transmission efficiency - Increased communication reliability
Commercial Applications: Title: Advanced Wireless Data Encoding Technology This technology can be used in various wireless communication systems, such as mobile networks, IoT devices, and satellite communication systems, enhancing data transmission efficiency and reliability.
Questions about Wireless Data Encoding: 1. How does adding time domain complex samples improve data encoding efficiency? Adding time domain complex samples allows for more efficient encoding of data by utilizing known functions to enhance the transmission process.
2. What are the potential drawbacks of using time domain complex samples in wireless communication? While time domain complex samples can improve efficiency, they may also introduce complexity to the encoding process, requiring advanced algorithms for implementation.
Original Abstract Submitted
Various aspects of the present disclosure generally relate to wireless communication. In some aspects, a first wireless communication device may encode real samples of data to obtain encoded data based at least in part on adding one or more time domain complex samples to the real samples of the data, wherein a function of the one or more time domain complex samples is a known value, and wherein the function is a sum of exponentials of the one or more time domain complex samples. The first wireless communication device may transmit, to a second wireless communication device, the encoded data. Numerous other aspects are described.