Explore how 5G NR (New Radio) adapts its scheduling techniques for different use cases, from mobile broadband to ultra-low latency applications. This video breaks down how the g-Node-B and UE communicate efficiently for both downlink and uplink, using dynamic and semi-persistent scheduling, while ensuring low latency data transfer through configured grants.<br /><br />Scheduling Options:<br />* Downlink: Dynamic Scheduling vs. Semi-Persistent Scheduling (SPS)<br />* Uplink: Dynamic Scheduling vs. Configured Grant (Type 1 and Type 2)<br /><br />Key Concepts:<br />* How g-Node-B informs the UE for mobile broadband data<br />* Low latency data handling with periodic communication<br />* Uplink dynamic scheduling and its limitations for low latency<br />* Configured Grant Type 1 and Type 2 explained for faster uplink communication<br /><br />Why It's Important:<br />* Achieve faster communication in low-latency use cases<br />* Understand how periodic data scheduling helps URLLC<br />* Optimize resource allocation for uplink transmissions<br /><br /><br />Learn how 5G scheduling options reduce latency, ensuring better performance for mobile broadband and critical communications.<br /><br /><br />Subscribe to "Learn And Grow Community" <br />YouTube : https://www.youtube.com/@LearnAndGrowCommunity<br />LinkedIn Group : https://linkedin.com/company/LearnAndGrowCommunity<br />Follow #learnandgrowcommunity <br /><br /><br /><br /><br /><br />#5gnr #lowlatency #mobilebroadband #SemiPersistentScheduling #ConfiguredGrant #urllc #5GScheduling #UplinkScheduling #DownlinkScheduling #wirelesstech #5gtechnology #5g #5gnetwork #5gran #5gcore #5gconnectivity #5grevolution #newradio #radioaccessnetwork #3gpp #scheduling #downlink #uplinkscheduling #nr #4gvs5g #5gvs4g #4g #lte #lte5g #mobilebroadband #telecom #telecominsights #signaling #PDCCH #PUCCH #controlchannel #PUSCH #PDSCH
