18649621. COMMUNICATION METHOD AND RELATED APPARATUS simplified abstract (Huawei Technologies Co., Ltd.)
COMMUNICATION METHOD AND RELATED APPARATUS
Organization Name
Inventor(s)
Pengpeng Dong of Shanghai (CN)
COMMUNICATION METHOD AND RELATED APPARATUS - A simplified explanation of the abstract
This abstract first appeared for US patent application 18649621 titled 'COMMUNICATION METHOD AND RELATED APPARATUS
Simplified Explanation
The patent application describes a method for reducing encoding calculation amounts in a multi-hop scenario by using encoding coefficients to encode data packets.
Key Features and Innovation
- Method for determining a newest encoding coefficient based on received coefficients and newly obtained coefficients.
- Encoding data packets using the newest encoding coefficient to reduce encoding calculation amounts.
- Improving encoding rate by implementing network recoding.
Potential Applications
This technology can be applied to extended reality (XR) services, low-latency services, and any other multi-hop scenarios requiring efficient data packet encoding.
Problems Solved
- Reducing encoding calculation amounts in multi-hop scenarios.
- Improving encoding rate while implementing network recoding.
Benefits
- Enhanced efficiency in data packet encoding.
- Improved performance in multi-hop scenarios.
- Increased encoding rate for better data transmission.
Commercial Applications
Potential commercial applications include XR services, real-time communication platforms, online gaming networks, and any other services requiring low-latency data transmission.
Prior Art
Readers can explore prior art related to encoding coefficients, data packet encoding in multi-hop scenarios, and network recoding techniques.
Frequently Updated Research
Stay updated on research related to data packet encoding efficiency, network recoding advancements, and improvements in multi-hop data transmission technologies.
Questions about Data Packet Encoding
How does the method for determining a newest encoding coefficient improve data packet encoding efficiency?
The method calculates a newest encoding coefficient based on received and newly obtained coefficients, allowing for more efficient encoding of data packets.
What are the potential applications of this technology beyond multi-hop scenarios?
This technology can be applied to various services requiring low-latency data transmission, such as XR services, real-time communication platforms, and online gaming networks.
Original Abstract Submitted
Technical solutions provided in this application may be applied to an extended reality XR service or another low-latency service. In a multi-hop scenario, after receiving a data packet sent by a previous-hop node and an encoding coefficient of the data packet relative to an original data packet, a forwarding node first determines a newest encoding coefficient based on the encoding coefficient received by the forwarding node from the previous-hop node and an encoding coefficient newly obtained by the forwarding node, and encodes, by using the newest encoding coefficient, the data packet received by the forwarding node from the previous-hop node. In this case, a data packet obtained through encoding is essentially a data packet obtained by the forwarding node by encoding the original data packet by using the newly obtained encoding coefficient. An encoding calculation amount can be further reduced while network recoding is implemented, thereby improving an encoding rate.