18675312. RRM Measurement in 5G New Radio FR1 Dual Connectivity simplified abstract (Apple Inc.)
RRM Measurement in 5G New Radio FR1 Dual Connectivity
Organization Name
Inventor(s)
Dawei Zhang of Saratoga CA (US)
Huaning Niu of San Jose CA (US)
Manasa Raghavan of Sunnyvale CA (US)
Xiang Chen of Campbell CA (US)
RRM Measurement in 5G New Radio FR1 Dual Connectivity - A simplified explanation of the abstract
This abstract first appeared for US patent application 18675312 titled 'RRM Measurement in 5G New Radio FR1 Dual Connectivity
The abstract describes a patent application where a user equipment (UE) is able to connect to both a primary cell (PCell) and a primary secondary cell (PSCell) of a wireless network simultaneously, with both component carriers being in frequency range 1 (FR1). The UE receives configurations for measurement objects (MO) for the PCell, PSCell, and inter-frequency measurements, determines carrier-specific scaling factors for each, and applies these factors to determine scaled measurement periods for each type of measurement.
- The UE can connect to both a PCell and a PSCell in the same frequency range simultaneously.
- It receives configurations for different types of measurements and applies carrier-specific scaling factors to determine measurement periods.
- This innovation allows for efficient and accurate measurement of different types of cells in a wireless network.
Potential Applications: - This technology can be used in 5G networks to improve network performance and efficiency. - It can enhance handover procedures between different cells in a wireless network. - The innovation can be applied in IoT devices to optimize connectivity and data transmission.
Problems Solved: - Enables seamless connectivity to multiple cells in a wireless network. - Improves the accuracy and efficiency of measurements in a network. - Enhances the overall performance and reliability of wireless communication.
Benefits: - Enhanced network performance and efficiency. - Improved handover procedures for better connectivity. - Optimized data transmission in IoT devices.
Commercial Applications: Title: Enhanced Connectivity Technology for Wireless Networks This technology can be utilized by telecommunications companies to improve the performance of their networks, leading to better user experience and increased customer satisfaction. It can also be integrated into IoT devices to enhance connectivity and data transmission efficiency, opening up new opportunities in the IoT market.
Questions about Enhanced Connectivity Technology for Wireless Networks: 1. How does this technology improve the efficiency of handover procedures between different cells in a wireless network? - This technology allows the UE to connect to both a PCell and a PSCell simultaneously, enabling seamless handover between cells and enhancing overall network performance. 2. What are the potential applications of this innovation in the context of IoT devices? - This technology can optimize connectivity and data transmission in IoT devices, improving their overall performance and efficiency.
Original Abstract Submitted
A user equipment (UE) is configured to simultaneously connect to a primary cell (PCell) and a primary secondary cell (PSCell) of a wireless network, wherein a primary component carrier (PCC) of the PCell and a primary secondary component carrier (PSCC) of the PSCell are both in frequency range 1 (FR1). The UE receives a PCC measurement object (MO) configuration, a PSCC MO configuration, and an inter-frequency MO with no measurement gap configuration, determines a PCC MO carrier specific scaling factor (CSSF), a PSCC MO CSSF, and an inter-frequency MO with no measurement gap CSSF and applies each respective CSSF to a measurement period corresponding to each of the PCC MO, the PSCC MO, and the inter-frequency MO with no measurement gap to determine a scaled measurement period corresponding to each of the PCC MO, the PSCC MO, and the inter-frequency MO with no measurement gap.
