5G Wireless: Layers 1, 2, 3 Training
Commitment | 4 Days, 7-8 hours a day. |
Language | English |
User Ratings | Average User Rating 4.8 See what learners said |
Price | REQUEST |
Delivery Options | Instructor-Led Onsite, Online, and Classroom Live |
COURSE OVERVIEW
5G Wireless: Layers 1, 2, 3 Training open with a review of the 5G wireless standardization history, key concepts from LTE and LTE-Advanced, 5G wireless objectives and requirements, and 5G wireless technology drivers. We will follow this with a deep dive into 5G Wireless Layer 1, Layer 2, and Layer 3. The 5G Wireless Training: Layers 1, 2, 3-course content is continually updated to keep it synched with the 5G wireless state-of-the-art. You will go away from the course having acquired a solid understanding of 5G Wireless Layers 1 to 3.
WHAT'S INCLUDED?
- 4 days of 5G Wireless: Layers 1, 2, 3 Training with an expert instructor
- 5G Wireless: Layers 1, 2, 3 Electronic Course Guide
- Certificate of Completion
- 100% Satisfaction Guarantee
RESOURCES
- 5G Wireless: Layers 1, 2, 3 – https://www.wiley.com/
- 5G Wireless: Layers 1, 2, 3 – https://www.packtpub.com/
- 5G Wireless: Layers 1, 2, 3 – https://store.logicaloperations.com/
- 5G Wireless: Layers 1, 2, 3 – https://us.artechhouse.com/
- 5G Wireless: Layers 1, 2, 3 Training – https://www.amazon.com/
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ADDITIONAL INFORMATION
CUSTOMIZE IT
- We can adapt 5G Wireless: Layers 1, 2, 3 to your specific needs or interests by including or excluding certain topics, making it shorter or longer, or by making it more or less technical as needed
- If you are familiar with some aspects of this 5G Wireless Training: Layers 1, 2, 3 course, we can omit or shorten their discussion.
- We can adjust the emphasis placed on the various topics or build the 5G Wireless: Layers 1, 2, 3 Training around the mix of technologies of interest to you (including technologies other than those included in this outline).
- If your background is nontechnical, we can exclude the more technical topics, include the topics that may be of special interest to you (e.g., as a manager or policy-maker), and present the 5G Wireless: Layers 1, 2, 3 courses in a manner understandable to lay audiences.
COURSE OBJECTIVES
Upon completing this 5G Wireless: Layers 1, 2, 3 Training course, learners will be able to meet these objectives:
AUDIENCE/TARGET GROUP
The target audience for this 5G Wireless: Layers 1, 2, 3 course:
- Telecommunications equipment vendors, operators, and others whose job requires staying abreast with the evolving 5G wireless technology
CLASS PREREQUISITES
The knowledge and skills that a learner must have before attending this 5G Wireless: Layers 1, 2, 3 course are:
- LTE / LTE-A Deep Dive: RAN and Core
COURSE SYLLABUS
History and Standardization of 4G Communications Systems
- 5G Business Opportunities
- ITU Requirements and Technologies
- IMT-2000 Requirements and Technologies
- IMT-Advanced Requirements and Technologies
- 3GPP LTE Standardization Process and Status
Review of Key LTE and LTE-Advanced Concepts
- LTE Network Architecture and Components
- UE
- eNB
- MME, S-GW, P-GW, PCRF, HSS
- LTE and LTE-Advanced Air Interface Basics
- LTE Physical Layer
- LTE RRC and RLC Layers
- LTE Network Entry
- LTE-Advanced Specifications
- LTE Release 11 Features
- LTE Release 12 Features
- LTE Release 13 Features
- LTE Release 14 Features (LTE Advanced-Pro)
5G Wireless Training: 5G Requirements and Services
- ITU IMT 2020
- Process and Timeline
- ITU 5G Use Cases
- IMT Technologies between 6 and 100 GHz
- 5G NGMN Requirements
- User Experience
- System Performance
- Device Requirements
- 5G Enhanced Services
- Network Operation, Deployment, and Management
- METIS 5G Generic Services and Requirements
- xMBB: Extreme Mobile BroadBand
- uMTC: Ultrareliable Machine Type Communication
- mMTC: Massive Machine Type Communication
- 5G Wireless Objectives
- Capacity Increase
- Variety of Services and Applications
- Variety of Device Types
- Saving Energy
5G Wireless Training: 5G Technology Drivers
- RAN Sharing
- Green Communications
- Network Densification
- Small Cell Development
- HetNet Development
- Millimeter Wave (mWave), High Frequencies
- Massive MIMO
- Software Defined Networking (SDN)
- Cloud RAN
- Device to Device Communications
- Internet of Things (IOT)
- Machine to Machine (M2M)
- Backhaul Development
- Device Centric Architecture
- 3GPP LTE 5G Network Services
- Massive Internet of Things (IOT)
- Critical Communications
- Enhanced Mobile Broadband
- Network Operation
- C-V2X Communications
- Private LTE
- Context Aware Networks
- Self Backhaul
- Energy Efficiency
- NS-SS (Spectrum Sharing)
- GigaBit LTE
- Augmented Reality (AR)
- Virtual Reality (VR)
5G Wireless Training: Overall Architecture
- Architecture
- gNB and ng-eNB Functionalities
- AMF Functionalities
- AMF Functionalities
- UPF Functionalities
- SMF Functionalities
- 5G Network Interfaces
- NG Interface
- Xn Interface
- 5G Radio Protocol Architecture
- Control Plane
- User Plane
- Multi-RAT Dual Connectivity
- 5G: Channel Model
- 5G Channel Models outside 3GPP
- Coordinated Systems
- Antenna Modeling
- Path Loss
- Penetration Loss
- Fast Fading Models
- Link Level Channel Model Evaluation
- CDL Model (Clustered Delay Line)
- TPL Model (Tapped Delay Line)
- Map-Based Hybrid Channel Models
5G Wireless: Layers 1, 2, 3 Training – 5G NR Radio Requirements
- 5G Spectrum
- 5G Frequency Bands
- Sub-6GHz
- cmW
- mmW
- Spectrum Management
- Spectrum Sharing
- Dynamic Spectrum Access
- Cognitive Radio
- UE 5G NR Radio Requirements
- Base Station 5G NR Radio Requirements
- Common UE and BS Radio Requirements
5G New Radio (NR) Layer 1
- 5G NR Waveform
- Cyclic Prefix OFDM (CP-OFDM)
- Cyclic Prefix OFDM (CP-OFDM) with DFT Spreading
- 5G NR Frame Structure
- 5G NR Numerology
- 5G NR DownLink
- DL Transmission Scheme
- DL PHY Shared Channels
- DL PHY Control Channels
- DL PHY Signals
- DL PHY Synchronization Signals
- 5G NR DL Procedures
- Power Control
- HARQ
- Cell Search
- Link Adaptation
- 5G NR Modulation Techniques
- π/2-BPSK
- BPSK
- QPSK
- 16QAM
- 64QAM
- 256QAM
- 5G NR Channel Coding
- Coding Techniques
- LDPC
- Polar Coding
- Small Block Channel Coding
- CRC Calculation
- Rate Matching
- Control channel Coding
- Broadcast Channel Coding
- 5G NR UpLink
- UL Transmission Scheme
- UL PHY Shared Channels
- UL PHY Control Channels
- UL Random Access
- UL PHY Signals
- UL Procedures
- Link Adaptation
- Power Control
- HARQ
- UL Timing Control
- 5G NR Modulation Techniques
- π/2-BPSK
- BPSK
- QPSK
- 16QAM
- 64QAM
- 256QAM
- 5G NR Channel Coding
- Coding Techniques
- LDPC
- Polar Coding
- Small Block Channel Coding
- CRC Calculation
- Rate Matching
- Control channel Coding
- Random Access Channel Coding
- 5G NR Carrier Aggregation
- Supplemental Channels
- 5G NR Transport Channels
- PHY Layer Measurement
- Duplexing in 5G NR
- LTE-5G NR Coexistence
- Dual Connectivity
5G Wireless: Layers 1, 2, 3 Training – 5G NR Layer 2
- Layer 2 Overall Overview
- 5G NR MAC Sublayer
- Services and Functions
- Logical Channels
- HARQ
- Transport Channels
- 5G MAC Procedures
- Random Access Procedure
- DL Data Transfer
- UL Data Transfer
- Discontinuous Reception (DRX)
- Semi Persistent Scheduling (SPS)
- MAC PDU Formats
- 5G NR Radio Link Control (RLC) Architecture
- RLC ARQ Procedure
- RLC PDU Format and Structure
- 5G NR Packet Data Convergence Protocol (PDCP) Architecture
- Service Data Protocol (SDAP) Sublayer
- New AS Sublayer
- Carrier Aggregation
- Dual Connectivity
- Bandwidth Adaptation
- Supplementary Uplink
- 5G NR Radio Resource Control
- RRC States
- RRC Idle State
- RRC Inactive State
- RRC Active State
- NG Identities
- NR Mobility
- Intra-NR
- Inter-RAT
- Roaming
- Scheduling
- Basic Scheduling in 5G NR
- DL Scheduling
- UL Scheduling
- UE Power Saving
- 5G NR QoS Architecture
- 5G NR Security
- Self-Optimization (SoN) and Self-Configuration
5G NR Layer 3
- RAN-CN Interfaces
- 5G: The New Core
- Standalone and Non-Standalone 5G Networks
- Tight Interworking with LTE
- Cloud RAN (C-RAN)
- Collaborative Communications Protocols
- Virtualization and Software Defined Networking (SDN)
- The SDN Concept
- OpenFlow Protocol
- Network Functions Virtualization (NFV)
- NFV MANO: Management and Orchestration
- vRAN /C-RAN
- RRH (BBU) – Remote Radio Head (Baseband Unit)
- Internet of Things (IoT)
- Alternative Technology Solutions
- NB-IoT, Sigfox
- Data Analytics
- IoT Security Challenges and Solutions
- Management and Orchestration for 5G Networks
- Distributed Vs. Centralized Network Architecture Management
- SON: Self-Organized Network
- Cloud Orchestration Platform (e.g., OpenStack and Ryu Controller)
- ICN: Information-Centric Networking
- The ICN Concept
- Novel Topologies to Support Edge-based Storage and Computing
- NDN: Named Data Networking
- CCN: Content-Centric Network
- Security Aspects
- 5G Connectivity Concepts
- D2D
- V2X
- Multi-connectivity
- Tight Interworking with LTE
- NR Vertical Support
- IMS Voice
- Network Slicing
- Resource Isolation and Management
- PWS
- URLLC
5G Wireless: Layers 1, 2, 3 Training – 5G NR Advanced Features
- Advanced MIMO and Beamforming
- 3D Beamforming and Diversity
- Beam Management
- CSI Management
- MIMO Schemes
- Reference Signals
- Quasi Co-location (QCL)
- Network Coordination and Advanced Receiver
- Interference Management
- Millimeter-Wave Beamforming
- Cognitive Radio Small-Cells
- IoT Support
- eMTC Cat-M1
- NB-IOT Cat-B1
5G Advancement beyond NR (Release 16)
- 5G Waveform Candidates
- Generalized Frequency Division Multiplex (GFDM)
- Cyclic Prefix OFDM (CP-OFDM)
- Filter Bank Multicarrier (FBMC)
- Filtered OFDM (f-OFDM)
- Windowed OFDM (W-OFDM)
- Universal Filtered Multicarrier (UFMC)
- Sparse Code Multiple Access (SCMA)
- Non-orthogonal Multiple Access (NOMA)
- Resource Spread Multiple Access (RSMA)
- NS-SS (Spectrum Sharing)
- LAA / eLAA / MuLTEFire
- IoT Advancements
- LTE-based Evolution
- FeMTC
- eFeMTC
- NB-IOT evolution
- eNB-IOT
- FeNB-IOT