18396217. COMMUNICATION APPARATUS, BASE STATION, AND COMMUNICATION METHOD simplified abstract (DENSO CORPORATION)
Contents
- 1 COMMUNICATION APPARATUS, BASE STATION, AND COMMUNICATION METHOD
- 1.1 Organization Name
- 1.2 Inventor(s)
- 1.3 COMMUNICATION APPARATUS, BASE STATION, AND COMMUNICATION METHOD - A simplified explanation of the abstract
- 1.4 Simplified Explanation
- 1.5 Key Features and Innovation
- 1.6 Potential Applications
- 1.7 Problems Solved
- 1.8 Benefits
- 1.9 Commercial Applications
- 1.10 Prior Art
- 1.11 Frequently Updated Research
- 1.12 Questions about Radio Communication Systems
- 1.13 Original Abstract Submitted
COMMUNICATION APPARATUS, BASE STATION, AND COMMUNICATION METHOD
Organization Name
Inventor(s)
Misa Harada of Nisshin-city (JP)
Hideaki Takahashi of Kariya-city (JP)
Takafumi Nishi of Nisshin-city (JP)
Hideo Himeno of Kariya-city (JP)
COMMUNICATION APPARATUS, BASE STATION, AND COMMUNICATION METHOD - A simplified explanation of the abstract
This abstract first appeared for US patent application 18396217 titled 'COMMUNICATION APPARATUS, BASE STATION, AND COMMUNICATION METHOD
Simplified Explanation
The patent application describes a system where a user equipment (UE) communicates with a base station in a cell with multiple transmission/reception points. The UE receives messages from the base station to configure radio link monitoring and beam failure detection.
- The UE has a communicator to receive messages from the base station.
- The messages include configurations for radio link monitoring and beam failure detection.
- The UE has a controller to detect radio link failure and beam failure based on the configurations.
Key Features and Innovation
- User equipment (UE) communication with a base station in a cell with multiple transmission/reception points.
- Configuration of radio link monitoring and beam failure detection.
- Individual detection of beam failure for each beam failure detection resource set.
Potential Applications
This technology can be applied in telecommunications, specifically in improving the reliability and efficiency of radio communication systems.
Problems Solved
This technology addresses issues related to radio link failure and beam failure detection in communication systems, ensuring better performance and reliability.
Benefits
- Enhanced reliability in radio communication systems.
- Improved efficiency in detecting and addressing beam failures.
- Better overall performance of communication networks.
Commercial Applications
Title: Enhanced Radio Communication System for Improved Reliability This technology can be used in telecommunications companies to enhance the reliability and efficiency of their communication networks. It can also be applied in industries that rely on stable and secure communication systems.
Prior Art
Readers can explore prior patents related to radio link monitoring, beam failure detection, and communication systems to understand the evolution of this technology.
Frequently Updated Research
Researchers are constantly working on improving radio communication systems, including advancements in radio link monitoring and beam failure detection. Stay updated on the latest developments in this field for potential future applications.
Questions about Radio Communication Systems
How does this technology improve the reliability of radio communication systems?
This technology enhances reliability by configuring radio link monitoring and beam failure detection, allowing for timely detection and resolution of issues.
What are the potential commercial uses of this innovation?
The technology can be utilized in telecommunications companies and other industries that require stable and efficient communication systems for their operations.
Original Abstract Submitted
A user equipment (UE) performs radio communication with a base station that manages a cell including N (N≥) transmission/reception points. The UE comprises: a communicator configured to receive a radio resource control (RRC) message from the base station, the radio resource control (RRC) message including a radio link monitoring configuration for configuring radio link monitoring and a beam failure detection configuration for configuring N beam failure detection resource sets; and a controller configured to detect radio link failure based on the radio link monitoring configuration and individually detect beam failure for each of the N beam failure detection resource sets based on the beam failure detection configuration.