18579564. METHOD, USER EQUIPMENT, NETWORK NODE simplified abstract (NEC Corporation)
Contents
- 1 METHOD, USER EQUIPMENT, NETWORK NODE
- 1.1 Organization Name
- 1.2 Inventor(s)
- 1.3 METHOD, USER EQUIPMENT, NETWORK NODE - A simplified explanation of the abstract
- 1.4 Potential Applications
- 1.5 Problems Solved
- 1.6 Benefits
- 1.7 Commercial Applications
- 1.8 Prior Art
- 1.9 Frequently Updated Research
- 1.10 Questions about the Technology
- 1.11 Original Abstract Submitted
METHOD, USER EQUIPMENT, NETWORK NODE
Organization Name
Inventor(s)
METHOD, USER EQUIPMENT, NETWORK NODE - A simplified explanation of the abstract
This abstract first appeared for US patent application 18579564 titled 'METHOD, USER EQUIPMENT, NETWORK NODE
The communication system described in the patent application involves a non-terrestrial network part serving user equipment (UE) in one of its cells. The UE decides whether to delay or suspend a small data transmission to prevent radio link failure or handover issues. If the transmission is delayed or suspended, the UE resumes it in a new serving cell or through a relay.
- The patent application focuses on optimizing small data transmissions in a non-terrestrial network.
- The user equipment (UE) plays a crucial role in determining when to delay or suspend data transmissions.
- The system aims to prevent radio link failures and handover problems by strategically managing data transmission.
- Resuming data transmission in a new serving cell or via a relay ensures seamless connectivity for the UE.
- The innovation enhances the efficiency and reliability of data transmission in non-terrestrial networks.
Potential Applications
The technology can be applied in satellite communication systems, space missions, remote sensing applications, and IoT devices operating in non-terrestrial environments.
Problems Solved
The technology addresses issues related to radio link failures, handover disruptions, and data transmission interruptions in non-terrestrial networks.
Benefits
Improved reliability and efficiency of data transmission, enhanced connectivity in non-terrestrial environments, optimized use of network resources, and seamless handover processes for user equipment.
Commercial Applications
The technology can be utilized in satellite communication services, space exploration missions, remote sensing applications, and IoT devices operating in remote locations.
Prior Art
Researchers can explore existing patents related to satellite communication systems, handover optimization in wireless networks, and data transmission strategies in non-terrestrial environments.
Frequently Updated Research
Stay updated on advancements in satellite communication technologies, network optimization techniques for non-terrestrial environments, and innovations in data transmission protocols for remote devices.
Questions about the Technology
How does the technology impact the efficiency of data transmission in non-terrestrial networks?
The technology significantly improves the efficiency of data transmission by strategically managing small data transmissions to prevent disruptions.
What are the potential challenges in implementing this technology in satellite communication systems?
Challenges may include compatibility issues with existing network infrastructure, integration complexities, and ensuring seamless handover processes in space missions.
Original Abstract Submitted
A communication system comprising a non-terrestrial network part is disclosed in which a user equipment (UE) is served by one of the cells of the non-terrestrial network part. The UE determines whether to delay/suspend a small data transmission, based one or more associated parameters, so as to avoid a radio link failure or a handover. When the transmission is delayed/suspended, the UE initiates/resumes the data transmission in a new serving cell (e.g. after cell reselection or RRC establishment in the new cell), or via a relay (e.g. a device-to-device relay).
