Can 5G achieve precise indoor localization? Inside buildings and in dense urban areas, the super-fast 5G (mmWave) should be capable of achieving a positioning accuracy of 1 meter or below .
Read moreWhat is 5G BSF?
5G Binding Support: enables scaling the policy/charging network . The 5G Binding Support Function (BSF) is comparable with the Session Binding Function on the Diameter Routing Agent (DRA) used in 4G. It becomes a mandatory requirement when multiple Policy Control Function (PCF) systems are deployed in the network.
Read moreWhat is 5G N9 interface?
N9: Interface between two UPF’s (i.e the Intermediate I-UPF and the UPF Session Anchor) N6: Interface between the Data Network (DN) and the UPF. N4: Interface between the Session Management Function (SMF) and the UPF.
Read moreWhat is N14 interface in 5G?
Related to the 3GPP 5G Architecture. The N14 Reference point is between two AMFs (Access and Mobility Management Functions) .
Read moreWhat is N5 interface in 5G?
N5: Reference point between the PCF and an AF . N7: Reference point between the SMF and the PCF. N8: Reference point between the UDM and the AMF. N10: Reference point between the UDM and the SMF. N11: Reference point between the AMF and the SMF.
Read moreDoes 5G mess with GPS?
The problem with using radio signals so close to the GPS frequency (GPS is simply a very sensitive and sophisticated radio receiver) is that spillover can cause interference with the very faint radio signals received by GPS. Simply put, while we all want 5G, it can’t come at the expense of GPS .
Read moreWhy does 5G need GPS?
In order to minimize and even avoid interference , the timing and synchronizations techniques used in the cellular network will need to evolve to support the new 5G requirements. The time of day messages and the timing pulse received from the GPS satellite constellation will also be used differently.
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