5G O-RAN (Open RAN): Architecture, Procedures And Use Cases
Duration: 2h 23m | .MP4 1280x720, 30 fps(r) | AAC, 44100 Hz, 2ch | 906 MB
Genre: eLearning | Language: English
Duration: 2h 23m | .MP4 1280x720, 30 fps(r) | AAC, 44100 Hz, 2ch | 906 MB
Genre: eLearning | Language: English
Path to O-RAN, RAN Functional Splits, Split 7.2x for O-RAN, O-RAN Virtualization, Non & Near RT RIC, Slicing in O-RAN
What you'll learn:
O-RAN (Open RAN) Concept in detail
Evolution to O-RAN (vRAN, C-RAN, D-RAN, RAN Disaggregation)
RAN Functional Split Options (specially option 7.2x)
Enhanced CPRI (e-CPRI) Protocol
O-RAN Architecture (SMO, Non RT RIC, Near RT RIC)
Virtualization on O-RAN
DEVOPS in O-RAN
ORAN Use Cases (Traffic Steering, NSSI Optimization, UAV resource allocarion)
Requirements:
Basic concepts of Mobile telecommunication and 5G
Description:
O-RAN (or Open RAN) opens new avenues of service innovation and agility for telcos by breaking the Radio Access Network (RAN) into its component parts, each of which can be separately reconfigured. O-RAN standards are freely accessible to all third-party software developers, who can develop new types of services and innovate on the RAN Intelligent Controller (RIC) by building xApps and rApps. This enables telcos to make their networks a much more relevant resource for both enterprise and consumer applications.
Arguably the open RAN’s biggest claim is the potential to enable telcos to avoid vendor lock-in by replacing vendor-proprietary interfaces with a fully disaggregated RAN based on open standards.
Automation will be key to managing the lifecycle of disaggregated, cloud-native RAN functions. O-RAN can bring down the network deployment and operation cost by evolving the network in a continuous integration/ continuous delivery (CI/CD) manner rather than through generational investment cycles.
This course covers all the important topics that are required to have a good and comprehensive learning of the O-RAN technology. The relevant standards of the O-RAN alliance have been discussed to describe the O-RAN architecture and working, as well as the O-RAN open interfaces.
The contents of the this course are:
Section 1: Introduction The Main components of a 5G Network Design Goals of Open RAN
Section 2: Evolution to Open RAN Traditional Basestation Architecture Evolution to the Contemporary Basestation Evolution to Virtualized RAN (vRAN) From Virtualized RAN (vRAN) towards Open RAN Difference Between Distributed RAN and Centralized RAN Difference Between Centralized RAN and Cloud RAN Path to 5G Open RAN: Horizontal Dis-aggregation
Section 3: RAN Splits-Logical View Different RAN Functional Splits RAN Split Option 1 RAN Split Option 2 RAN Split Option 8 RAN Split Option 6 RAN Splits Logical View Option 7.2x for Open RAN Enhanced CPRI (e-CPRI) Protocol
Section 4: Overview of O-RAN Architecture Difference Between Open RAN and O-RAN Control Plane & User Plane Dis-aggregation in O-RAN Entities & Interfaces Introduced in O-RAN Alliance Architecture Functions Options For Aggregation of O-RAN Nodes O-RAN Control Loops Major Entities in O-RAN Ecosystems
Section 5: Virtualization techniques for O-RAN Evolution of Virtualization: Physical Network Functions (PNFs) Virtual Network Functions (VNFs) Monolithic Applications as VNFs Cloud Native Network Function-Distributed Applications O-Cloud Deployment Options DEVOPS CI-CD in O-RAN Network Automation to Reduce CAPEX and OPEX
Section 6: Detailed O-RAN Architecture Service Management and Orchestration (SMO) Non Real Time RIC (non-RT RIC) JSON (JavaScript Object Notation) Format Example A1 Policy Format and Examples Near Real Time RIC Centralized and Distributed Near-RT RIC
Section 7: O-RAN Traffic Steering Use Case O-RAN Traffic Steering (TS) APP Example-Problem of Traditional TS Advantages of TS using O-RAN Required Data (KPI) collection for TS Role of Non-RT RIC in TS Role of Near RT RIC in TS Role of E2-Node in TS TS Example Scenario
Section 8: Network Slicing in 5G O-RAN What Is A Network Slice Example of Network Slicing in 5G Single Network Slice Selection Assistance Information (S-NSSAI) Network Slice Subnet Instance (NSSI) Network Slicing Management Model: CSMF, NSMF,NSSMF Network Slice Template (NST) Open Network Automation Platform (ONAP) Architecture ONAP based O-RAN Network Slicing Architecture Network Slice Instance Creation Procedure Using ONAP based Network Slicing
Section 9: Other O-RAN Use Case Use Case: NSSI Resource Allocation Optimization NSSI Resource Allocation Optimization Procedure Flow Diagram: NSSI Resource Allocation Optimization Use Case: Flight Path Based Dynamic UAV Radio Resource Allocation Flight Path Based Dynamic UAV Radio Resource Allocation Procedure Flow Diagram: Flight Path Based Dynamic UAV Radio Resource Allocation
Who this course is for:
Network and system engineers who want to pursue their carrier in Telecom Industry
Students and working professionals who want understanding of 5G O-RAN (Open RAN)
Anyone who want to learn protocols and procedures involved in O-RAN
Anyone who want to upgrade their skills for better job.
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