CARRIER AGGREGATION AND DUAL CONNECTIVITY SWITCHING IN A CELLULAR NETWORK

Organization Name

DISH Wireless L.L.C.

Inventor(s)

Dhaval Mehta of Aldie VA (US)

Sourabh Gupta of Ashburn VA (US)

Gurpreet Sohi of Parker CO (US)

CARRIER AGGREGATION AND DUAL CONNECTIVITY SWITCHING IN A CELLULAR NETWORK - A simplified explanation of the abstract

This abstract first appeared for US patent application 20240349063 titled 'CARRIER AGGREGATION AND DUAL CONNECTIVITY SWITCHING IN A CELLULAR NETWORK

Simplified Explanation: This patent application focuses on systems and methods for carrier aggregation and dual connectivity switching in a cellular network, such as a 5G network. It includes various techniques for dynamic carrier aggregation and dual connectivity switching within the network.

• Dynamic carrier aggregation and dual connectivity switching supported by RAN functions.
• Dynamic carrier aggregation and dual connectivity switching with or without a network intelligence layer.
• Dynamic carrier aggregation and dual connectivity switching based on the availability of an inter-DU link and meeting specific criteria.
• Prioritization for using carrier aggregation instead of dual connectivity based on CQI information reported from UEs.

Key Features and Innovation: - Systems and methods for dynamic carrier aggregation and dual connectivity switching in a cellular network. - Implementation of RAN functions to support measuring and reporting for carrier aggregation and dual connectivity switching. - Utilization of network intelligence layer for efficient dynamic switching. - Prioritization based on specific criteria for optimal connectivity.

Potential Applications: This technology can be applied in 5G networks and other cellular networks to enhance connectivity and network efficiency. It can benefit mobile operators, network providers, and end-users by improving data speeds and network reliability.

Problems Solved: - Addressing the need for efficient carrier aggregation and dual connectivity switching in cellular networks. - Optimizing network resources and improving overall network performance. - Enhancing user experience by ensuring seamless connectivity transitions.

Benefits: - Improved network efficiency and performance. - Enhanced user experience with faster data speeds. - Optimal resource utilization for better network management.

Commercial Applications: The technology can be utilized by mobile network operators to enhance their 5G networks, improve customer satisfaction, and gain a competitive edge in the market. It can also be integrated into network equipment and devices to support advanced connectivity features.

Prior Art: Further research can be conducted in the field of dynamic carrier aggregation and dual connectivity switching in cellular networks to explore existing technologies and innovations in this area.

Frequently Updated Research: Researchers are continually exploring new methods and technologies for optimizing carrier aggregation and dual connectivity switching in cellular networks. Stay updated on the latest advancements in this field to leverage the benefits of improved network performance and connectivity.

Questions about Carrier Aggregation and Dual Connectivity Switching: 1. What are the key benefits of implementing dynamic carrier aggregation and dual connectivity switching in a cellular network? 2. How does the utilization of a network intelligence layer impact the efficiency of carrier aggregation and dual connectivity switching?

Original Abstract Submitted

embodiments are directed towards systems and methods for carrier aggregation and dual connectivity switching in a cellular network (e.g., a 5g network). example embodiments include systems and methods for: the ran functions supporting providing measuring and reporting particular items for dynamic carrier aggregation and dual connectivity switching; ran dynamic carrier aggregation and dual connectivity switching with a network intelligence layer; ran dynamic carrier aggregation and dual connectivity switching without a network intelligence layer; ran dynamic carrier aggregation and dual connectivity switching based on availability of an inter-du link and meeting latency/bandwidth criteria; ran dynamic carrier aggregation and dual connectivity switching based on availability of an inter-du link and meeting resource criteria; and prioritization for using ca instead of dc based on cqi information reported from ues.