18170809. TARGET CELL MULTI-TRP OPERATION IN L1/L2-TRIGGERED MOBILITY simplified abstract (Nokia Technologies Oy)
TARGET CELL MULTI-TRP OPERATION IN L1/L2-TRIGGERED MOBILITY
Organization Name
Inventor(s)
Sanjay Goyal of Denville NJ (US)
Keeth Saliya Jayasinghe Laddu of Espoo (FI)
Ali Karimidehkordi of Munich (DE)
Panagiotis Spapis of Munich (DE)
TARGET CELL MULTI-TRP OPERATION IN L1/L2-TRIGGERED MOBILITY - A simplified explanation of the abstract
This abstract first appeared for US patent application 18170809 titled 'TARGET CELL MULTI-TRP OPERATION IN L1/L2-TRIGGERED MOBILITY
Simplified Explanation: The patent application describes a method for switching between distributed units in a communication network based on received measurement reports.
- The method involves receiving a configuration for a target distributed unit, including bandwidth part configurations and channel state information.
- Upon receiving a layer 1 measurement report, the source unit decides to switch to the target unit with multiple transmit and receive points operation.
- A cell switch command is then sent to user equipment to change to the target unit using multiple transmit and receive points operation.
Key Features and Innovation:
- Dynamic switching between distributed units based on measurement reports.
- Utilization of multiple transmit and receive points for enhanced communication.
- Efficient management of bandwidth part configurations and channel state information.
Potential Applications: This technology can be applied in cellular networks, wireless communication systems, and other distributed communication environments.
Problems Solved:
- Seamless handover between distributed units.
- Optimization of communication resources.
- Enhanced network performance and reliability.
Benefits:
- Improved network efficiency.
- Enhanced user experience.
- Better utilization of communication resources.
Commercial Applications: Potential commercial applications include mobile network operators, telecommunications companies, and IoT service providers looking to optimize their network performance and enhance user experience.
Prior Art: Further research can be conducted in the field of dynamic network switching and resource management in distributed communication systems.
Frequently Updated Research: Stay updated on advancements in dynamic network switching algorithms, resource allocation strategies, and optimization techniques in distributed communication networks.
Questions about Distributed Unit Switching: 1. What are the key factors considered when deciding to switch between distributed units in a communication network? 2. How does the utilization of multiple transmit and receive points enhance communication performance in distributed units?
Original Abstract Submitted
In some embodiments, there is provided a method that includes receiving, by a source distributed unit, a configuration for a target distributed unit, wherein the configuration comprises at least one bandwidth part configuration for at least one transmit and receive point at the targeted distributed unit and a channel state information resource configuration of multiple transmit and receive points; in response to receiving a layer 1 measurement report for the target distributed unit, deciding, by the source distributed unit, to switch to the target distributed unit with a multiple transmit and receive points operation; and sending, by the source distributed unit, a cell switch command to a user equipment to change to the target distributed using a multiple transmit and receive points operation, the cell switch command including a bandwidth part identifier and multiple transmit and receive points beam indications. Related systems, methods, and articles of manufacture are also disclosed.