Nokia technologies oy (20240113824). ENHANCED USE OF DEACTIVATED SECONDARY CELL GROUP IN DUAL-RX/DUAL-TX MUSIM OPERATION simplified abstract
ENHANCED USE OF DEACTIVATED SECONDARY CELL GROUP IN DUAL-RX/DUAL-TX MUSIM OPERATION
Organization Name
Inventor(s)
Srinivasan Selvaganapathy of Bangalore (IN)
Faranaz Sabouri-sichani of Aalborg (DK)
Laura Luque Sanchez of Aalborg (DK)
Janne Veikko Kaasalainen of Espoo (FI)
ENHANCED USE OF DEACTIVATED SECONDARY CELL GROUP IN DUAL-RX/DUAL-TX MUSIM OPERATION - A simplified explanation of the abstract
This abstract first appeared for US patent application 20240113824 titled 'ENHANCED USE OF DEACTIVATED SECONDARY CELL GROUP IN DUAL-RX/DUAL-TX MUSIM OPERATION
Simplified Explanation
The patent application describes a technique for operating a user equipment (UE) by providing information to a second network indicating that the UE is to be connected to a secondary cell group of a secondary node in a deactivated state.
- The UE sends a first gap request to the second network, requesting a first set of schedule gaps for performing measurements related to the secondary cell group of the first network, which is in a deactivated state.
Potential Applications: - This technology could be applied in cellular networks to improve network efficiency and connectivity by allowing UEs to seamlessly switch between different cell groups.
Problems Solved: - The technology solves the problem of efficiently managing network resources and ensuring smooth handovers between different cell groups for UEs.
Benefits: - Enhanced network performance and reliability for UEs. - Improved network resource utilization and efficiency.
Potential Commercial Applications: - Telecom companies and network operators could implement this technology in their cellular networks to enhance user experience and optimize network performance.
Possible Prior Art: - Prior art may include techniques for handover management in cellular networks, but specific details related to providing information about connecting to a secondary cell group in a deactivated state may not be addressed.
Unanswered Questions: 1. How does this technology impact battery life for UEs? 2. Are there any specific security considerations when implementing this technique in cellular networks?
Original Abstract Submitted
techniques of operating a musim include providing information by a ue connected to a secondary node within a first network having a secondary cell group in a deactivated state to a second network to which the ue is connected, the information indicating that the ue is to be connected to a secondary cell group of a secondary node in the deactivated state. specifically, the ue may send to the second network a first gap request requesting a first set of schedule gaps for performing measurements relating to the secondary cell group of the first network, the secondary cell group being in the deactivated state.
