There isn't a SINR value defined for this but it is defined as the SINR where the UE is unable to decode PDCCH with a specific AGG level. So, it is based on UE itself because some UEs might be able to decode this PDCCH at a higher SINR compared to others.
Thank you, for making all the complex topics so easy to understand. I have a question here, In Downlink RLC drops, when the 5G drop is triggered by gNB to anchor eNB, what will be the signalling if the UE is not reachable to the anchor eNB as well?
In 5G NSA UE doesn't have a direct signaling connection with gNB, as all signaling is controlled by eNB. Then how does NR RACH process signaling happen between UE and gNB?
Thank you very much. i have one querry In case of 5G standalone where LTE is not available, what UE will do after radio link failure ? What will be the next process ?
Have a look at the following, they do explain the traffic flow ru-vid.com/video/%D0%B2%D0%B8%D0%B4%D0%B5%D0%BE-77Wu0B1sbxA.html ru-vid.com/video/%D0%B2%D0%B8%D0%B4%D0%B5%D0%BE-f-GSdoP2RsY.html
@@OurTechPlanet it's options and call flow. I am expecting how PDCP decide to split data in PDCP layer in downlink. Like for uplink we have ul-datasplitThersold
Thanks a lot for the session in an easy-to-understand fashion. Crystal-clear explanation. Could you pls additionally elaborate on the other three failure types… synchReconfigFailureSCG, scg-ReconfigFailure, and srb3-IntegrityFailure? Are synchReconfigFailureSCG and scg-ChangeFailure the same? Is this only happening during random access at T304 expiry or can happen whenever there's a drop due to poor NR coverage? Will be very helpful.