| 1. 5G RAN protocol stack.mp4 | 23.5 MB | ||
| 1. 5G fundamentals.mp4 | 20.1 MB | ||
| 1. 5G spectrum.mp4 | 25.2 MB | ||
| 1. CA overview.mp4 | 16 MB | ||
| 1. Core network architecture and reference points.mp4 | 11.8 MB | ||
| 1. FR1 and FR2 comparisons characteristics and use cases.mp4 | 27 MB | ||
| 1. Initial access and registration.mp4 | 21.5 MB | ||
| 1. Introduction to 5G.mp4 | 10.6 MB | ||
| 1. Next steps.mp4 | 5.9 MB | ||
| 1. Spectrum- Frequency ranges.mp4 | 25.2 MB | ||
| 1. Telecom network overview.mp4 | 17.9 MB | ||
| 1. What is dual connectivity.mp4 | 19.2 MB | ||
| 10. 5G peak data rate throughput different modes.mp4 | 5.4 MB | ||
| 10. Layer 2- Data flow.mp4 | 5.8 MB | ||
| 10. Mobility management in DC and CA.mp4 | 12 MB | ||
| 10. Modulation and coding schemes.mp4 | 7.4 MB | ||
| 10. Network data analytics function NWDAF.mp4 | 8.8 MB | ||
| 10. Network slice selection during registration.mp4 | 18.3 MB | ||
| 11. 5G user plane latency.mp4 | 8 MB | ||
| 11. AMF selection and NSSAI handling.mp4 | 9.1 MB | ||
| 11. CA vs. DC.mp4 | 17.5 MB | ||
| 11. Duplex.mp4 | 9.4 MB | ||
| 11. Layer 2 functions- RLC.mp4 | 18.8 MB | ||
| 11. Network slice selection function NSSF.mp4 | 5.1 MB | ||
| 12. 5G user plane latency calculations.mp4 | 8.2 MB | ||
| 12. Context setups in 5G.mp4 | 10.2 MB | ||
| 12. Layer 2 functions- MAC.mp4 | 9 MB | ||
| 12. Network repository function NRF.mp4 | 5.3 MB | ||
| 12. Scheduler- Resource allocation.mp4 | 9.4 MB | ||
| 13. 5G core 5GC network protocols.mp4 | 6.6 MB | ||
| 13. Initial context setup flow.mp4 | 11.7 MB | ||
| 13. Layer 2- PDCP.mp4 | 10.4 MB | ||
| 13. Scheduler modes.mp4 | 11.6 MB | ||
| 14. Layer 2- SDAP.mp4 | 9.6 MB | ||
| 14. NFV and orchestration overview.mp4 | 10.2 MB | ||
| 14. PDU session establishment.mp4 | 11.5 MB | ||
| 15. 5GC NFV management and orchestration.mp4 | 12 MB | ||
| 15. Quality of service QoS.mp4 | 18.8 MB | ||
| 15. Radio protocol architecture.mp4 | 7.7 MB | ||
| 16. Layer 3- RRC and its states.mp4 | 13.6 MB | ||
| 16. PDU session and QoS flow management.mp4 | 14.4 MB | ||
| 17. Data radio bearers DRB.mp4 | 14.5 MB | ||
| 2. 5G NR frame structure.mp4 | 9.6 MB | ||
| 2. 5G call setup flow.mp4 | 9.4 MB | ||
| 2. 5G deployment options.mp4 | 12.9 MB | ||
| 2. 5G key service areas.mp4 | 9.2 MB | ||
| 2. CA deep dive.mp4 | 16 MB | ||
| 2. Physical layer- DL overview.mp4 | 14.4 MB | ||
| 2. Primary cell PCell.mp4 | 10.2 MB | ||
| 2. Service-based architecture.mp4 | 15.8 MB | ||
| 2. Subcarrier selection.mp4 | 22.7 MB | ||
| 2. Telecom network architecture.mp4 | 15.9 MB | ||
| 3. 5G deployment options part two.mp4 | 12.2 MB | ||
| 3. 5G resource grid.mp4 | 8.7 MB | ||
| 3. 5G technical capabilities.mp4 | 39.5 MB | ||
| 3. Building blocks of 5G.mp4 | 14.2 MB | ||
| 3. CA support in NSA and SA.mp4 | 10.6 MB | ||
| 3. HTTP 2 protocol.mp4 | 10.1 MB | ||
| 3. Key steps during the call setup.mp4 | 19.7 MB | ||
| 3. Layer 1- Physical downlink control channel PDCCH.mp4 | 18.4 MB | ||
| 3. PCell roles.mp4 | 12.2 MB | ||
| 3. SUL and deployment scenarios.mp4 | 12.7 MB | ||
| 4. 5G coverage planning- Downlink DL.mp4 | 16.6 MB | ||
| 4. AMF- Access and mobility management function.mp4 | 8 MB | ||
| 4. Dual connectivity and carrier aggregation.mp4 | 9.9 MB | ||
| 4. NR downlink signals and channels.mp4 | 17.2 MB | ||
| 4. Network architecture- Traditional vs. 5G.mp4 | 13.1 MB | ||
| 4. Primary secondary cell PSCell.mp4 | 11 MB | ||
| 4. RRC functions.mp4 | 7.8 MB | ||
| 4. SA architecture option two and its benefits.mp4 | 10.8 MB | ||
| 4. Simulation- PDCCH.mp4 | 8.1 MB | ||
| 5. 5G NR initial access.mp4 | 7.6 MB | ||
| 5. 5G coverage- Link DL budget calculation.mp4 | 14.7 MB | ||
| 5. AMF hierarchy.mp4 | 9.7 MB | ||
| 5. Applications of SA.mp4 | 20.8 MB | ||
| 5. Physical downlink shared channel PDSCH.mp4 | 4.6 MB | ||
| 5. RRC states.mp4 | 13.8 MB | ||
| 5. Radio access network RAN.mp4 | 14.9 MB | ||
| 5. Role of PSCell.mp4 | 13 MB | ||
| 5. SCell configuration.mp4 | 26.1 MB | ||
| 6. 5G New Radio NR architecture.mp4 | 13.9 MB | ||
| 6. 5G coverage planning- Uplink UL.mp4 | 10.3 MB | ||
| 6. EN-DC and CA.mp4 | 6 MB | ||
| 6. EN-DC workflow.mp4 | 13.6 MB | ||
| 6. NSA architecture option three- EN-DC.mp4 | 10.8 MB | ||
| 6. Session management function SMF.mp4 | 8.7 MB | ||
| 6. Simulation- Physical downlink shared channel PDSCH.mp4 | 8 MB | ||
| 6. Synchronization signal block.mp4 | 6.3 MB | ||
| 6. UE state transitions.mp4 | 9.9 MB | ||
| 7. 5G coverage- Detailed uplink budget calculation.mp4 | 35.9 MB | ||
| 7. Bandwidth parts BWP.mp4 | 7.8 MB | ||
| 7. DC and CA deployment scenario.mp4 | 11.7 MB | ||
| 7. Key components and interfaces- EN-DC.mp4 | 12 MB | ||
| 7. NR-DC concepts and connectivity.mp4 | 22.7 MB | ||
| 7. Physical uplink control channel PUCCH.mp4 | 21 MB | ||
| 7. RRC idle and connected modes.mp4 | 6.8 MB | ||
| 7. Transport network architecture.mp4 | 8.8 MB | ||
| 7. User plane function UPF.mp4 | 9.1 MB | ||
| 8. 5G peak data rate throughput planning.mp4 | 18.8 MB | ||
| 8. Considerations- UE and NW for CA.mp4 | 17.8 MB | ||
| 8. DC deployment scenarios.mp4 | 26 MB | ||
| 8. NSA benefits and limitations compared to SA.mp4 | 21.7 MB | ||
| 8. Orthogonal Frequency Division Multiple Access OFDMA.mp4 | 11.8 MB | ||
| 8. Physical uplink shared channel PUSCH.mp4 | 11.9 MB | ||
| 8. Policy control function PCF.mp4 | 8.7 MB | ||
| 8. Registration messages.mp4 | 22.4 MB | ||
| 8. Service-aware transport network.mp4 | 11.8 MB | ||
| 9. 5G core 5GC network.mp4 | 20.3 MB | ||
| 9. 5G peak data rate throughput calculation.mp4 | 11.1 MB | ||
| 9. Modulation.mp4 | 8.1 MB | ||
| 9. NSSAI.mp4 | 9.4 MB | ||
| 9. Scheduling in DC and CA.mp4 | 13.5 MB | ||
| 9. Simulation- PUCCH and PUSCH.mp4 | 7 MB | ||
| 9. Unified data management UDM.mp4 | 7.1 MB | ||
| Ex_Files_5G_Architecture.zip | 634.3 KB | ||
| ▲ 115 total files | |||
Course details
Get a comprehensive overview of 5G technology, and discover its fundamental concepts, key service areas, technical capabilities, and architectural evolution from legacy telecom networks. Analyze the 5G radio access network (RAN) and core network (5GC), and explore 5G new radio (NR), transport architecture, and service-based core functions (AMF, SMF, UPF). The course examines 5G physical layer technologies, including spectrum allocation, frame structure, resource grid, modulation schemes, and scheduling mechanisms for optimal resource utilization. Learn how to design and evaluate 5G network performance, calculating coverage, throughput, and latency, while optimizing deployment strategies such as standalone vs. non-standalone, carrier aggregation, and dual connectivity. Additionally, learn to interpret 5G signaling procedures, including initial access, registration, call setup, QoS management, and network slicing, while comparing different deployment scenarios.
| torrent name | size | uploader | age | seed | leech |
|---|---|---|---|---|---|
| 295.6 MB | freecoursewb | 2 years | 0 | 0 |
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