5G

Course Overview

This 3-day course offers a hands-on introduction to Software Defined Networking (SDN), focusing on tools like Mininet, OpenFlow VSwitch, and Python for defining networks. Participants will learn to separate control plane functions from data plane functions, simplifying network management and reducing costs. The training covers SDN architecture, virtualization, and network function virtualization (NFV), preparing participants to develop and control software-defined networks effectively.

Course Objectives

• Gain a practical understanding of SDN concepts and architecture.
• Use tools like Mininet and OpenFlow for SDN configuration and testing.
• Write controller and network emulation code for SDN.
• Explore the relationship between SDN and NFV.

Learning Outcomes

Participants will be able to:

• Configure and test SDN networks using Mininet and Python.
• Understand OpenFlow components and operations.
• Develop and manage SDN solutions for real-world applications.
• Leverage SDN and NFV to enhance network management and functionality.

Who Should Attend

• Networking and Telecom Professionals
• Software Engineers with a focus on networking
• System Architects and IT Infrastructure Engineers
• Researchers in networking and virtualization

Prerequisites

• Strong foundation in TCP/IP networking.
• Knowledge of router hardware and software architecture.

Why Choose This Course

• Practical hands-on labs with SDN tools and real-world simulations.
• Comprehensive focus on SDN architecture, tools, and implementation.
• 100% HRDC Claimable.

Key Topics

Module 1: SDN Overview and Mininet Demo

• SDN basics, OpenFlow architecture, and Mininet demonstrations.

Module 2: Introduction to SDN

• Virtualization, abstraction, and benefits of SDN.

Module 3: OpenFlow and Virtual Switches

• Components, flow table management, and OpenFlow operations.

Module 4: Mininet and Python Scripting

• Configuring Mininet and embedding commands in Python scripts.

Module 5: SDN Ecosystem

• Standards, enterprise, and service provider solutions.

Module 6: Demonstration with 4-Port SDN Switch

• Practical configuration and testing of an SDN switch.

Module 7: NFV Overview

• Introduction to NFV, its relationship with SDN, and service provider benefits.

Teaching Methodologies

• Lectures, hands-on labs, and practical configuration exercises.
• Case studies, group discussions, and simulation-based learning.
• Quizzes and assessments for knowledge reinforcement.

5G

Course Overview

This 3-day course provides a comprehensive understanding of the evolution from LTE to 5G and the anticipated future of 6G networks. It explores key technologies, architectural designs, and use cases across these generations of mobile networks. Participants will gain practical insights into system optimization and design considerations for modern wireless systems through theoretical concepts and hands-on activities.

Course Objectives

• Understand the foundational principles and technologies of LTE, 5G, and 6G.
• Explore key features and enhancements introduced in 5G (Releases 15–17).
• Learn optimization techniques for wireless system parameters.
• Gain insights into 6G’s vision, emerging trends, and global research efforts.

Learning Outcomes

Participants will be able to:

• Analyze LTE, 5G, and 6G protocol stack layers.
• Review 5G Releases 15, 16, and 17 features and real-world applications.
• Apply standards to network design and system optimization.
• Explore future trends and challenges in 6G technologies.

Who Should Attend

• Wireless, Network, and Telecom Engineers
• RF Engineers and System Architects
• Researchers in Telecommunications
• Professionals transitioning to 5G and 6G technologies

Prerequisites

• Basic knowledge of wireless communications and networks.

Why Choose This Course

• Detailed focus on the transition from LTE to 5G and future trends in 6G.
• Hands-on labs and real-world design examples.
• 100% HRDC Claimable.

Key Topics

Day 1: LTE and the Evolution to 5G

• Overview of LTE architecture and OFDMA technology.
• Transition from LTE to 5G, including NSA and SA deployments.
• 5G key technologies: Massive MIMO, beamforming, and mmWave.

Day 2: In-Depth 5G Architecture and Network Design

• Network slicing, edge computing, and 5GC architecture.
• Releases 15–17 enhancements and deployment considerations.
• Use cases in smart healthcare, automotive, and augmented reality.

Day 3: Introduction to 6G and Future Network Technologies

• 6G vision, timelines, and advanced wireless technologies.
• Emerging use cases like holographic communications and space-based networks.
• Coexistence strategies for LTE, 5G, and 6G.

Teaching Methodologies

• Lectures and presentations with simulation-based learning.
• Hands-on labs, case studies, and practical design examples.
• Problem-solving workshops and interactive Q&A sessions.

5G

Course Overview

This 1-day course explores the transformative impact of the Internet of Things (IoT) across industries, focusing on its potential to create business opportunities and drive monetization for telecoms through vertical business expansions. The training discusses IoT ecosystem readiness, business models, and practical deployments. Participants will gain insights into commercial use cases, enabling technologies, and the evolution of IoT business strategies.

Course Objectives

• Discuss IoT value creation and explore various business models.
• Compare key IoT enabling technologies.
• Present commercial IoT use cases and their deployment.
• Understand the business evolution driven by IoT.

Learning Outcomes

Participants will be able to:

• Analyze IoT business models and commercial opportunities.
• Explore enabling technologies like Sigfox, LoRa, and IoT over LTE.
• Understand IoT’s role in creating value across industries.
• Discuss IoT ecosystem readiness and its impact on business evolution.

Who Should Attend

• Business Leaders and Managers
• Telecom and IT Professionals
• Entrepreneurs, Startups, and Corporate Strategists
• Professionals exploring IoT-enabled business models

Prerequisites

• General knowledge about telecommunications is recommended but not required.

Why Choose This Course

• Highlights real-world commercial IoT deployments and business strategies.
• Industry-specific case studies with actionable insights.
• 100% HRDC Claimable.

Key Topics

1. IoT’s Revolutionary Impact Across Industries

• Market insights and global ecosystem overview.
• Strategy of major IoT players.

2. IoT Business Evolution

• IoT business models, evolution, and disruptors like Sigfox and LoRa.
• Enabling IoT over cellular networks (LTE).

3. Commercial IoT Deployments

• Use cases such as smart lighting, waste management, metering, asset tracking, and e-healthcare.
• Role of Big Data in IoT services.

Teaching Methodologies

• Lectures and presentations
• Case studies of IoT deployments
• Business model analysis exercises
• Interactive Q&A and group discussions

5G

Course Overview

This 2-day course explores the synergy between IoT, Big Data, AI, 5G, and other technologies in building intelligent IT systems. It focuses on creating smart IoT solutions using Machine-to-Machine (M2M) communication for home, enterprise, and industrial applications. Participants will gain hands-on experience with tools like Cooja and Contiki, developing complete IoT systems with cloud integration, networking, and advanced protocols like IEEE 802.15.4, 6LoWPAN, CoAP, and LWM2M.

Course Objectives

• Build end-to-end IoT systems leveraging cloud, Big Data, and AI.
• Design IoT systems with efficient networking, OS, and gateway choices.
• Implement M2M communication using protocols like CoAP and LWM2M.
• Apply industry standards and open-source tools for IoT development.

Learning Outcomes

Participants will be able to:

• Design and deploy IoT solutions for diverse applications.
• Utilize tools like Contiki and Cooja for IoT demonstrations.
• Build secure and scalable systems using M2M protocols and cloud services.

Who Should Attend

• IT Engineers, Network Engineers, and IoT Developers
• System Architects and Cyber-Physical Systems Engineers
• Professionals in M2M Communication
• Managers in IT, Telecommunications, and Automation

Prerequisites

• Basic knowledge of networking and computing.

Why Choose This Course

• Focus on practical IoT applications and standards-based development.
• Hands-on labs and demonstrations with real-world tools and frameworks.
• 100% HRDC Claimable.

Key Topics

Module 1: Introduction to IoT and Related Technologies

• IoT fundamentals and relation to emerging technologies like AI, 5G, and Industry 4.0.
• Overview of IoT standards and semantic web.

Module 2: IoT System Architecture

• Sensor nodes, gateways, and cloud service platforms.
• Demonstrations with Contiki OS and constrained networks.

Module 3: Sensor Network and IEEE 802.15.4

• Wireless networking options, 6LoWPAN procedures, and Wireshark analysis.

Module 4: Gateway and Cloud Services

• Application gateways, device management, and end-to-end protocol architecture.

Module 5: Open Mobile Alliance LWM2M

• LWM2M management architecture, operations, and data transfer formats.
• Demonstration with Cooja and Contiki.

Module 6: Emerging Initiatives and Industry Applications

• Industry 4.0 and cyber-physical systems integration.

Teaching Methodologies

• Lectures, presentations, and hands-on labs.
• Practical exercises and simulation-based learning.
• Live demonstrations and group discussions.

5G

Course Overview

This 3-day training program provides an in-depth understanding of 5G technology, focusing on its evolution, architecture, enabling technologies, and future trends. Participants will explore the major features of 5G, including massive MIMO, mmWave communications, network slicing, and edge computing. The course also addresses deployment challenges, security, and the potential of 6G.

Course Objectives

• Understand the key differences between 4G and 5G technologies.
• Learn about 5G network architecture, spectrum, and enabling technologies.
• Explore 5G use cases, deployment strategies, and security challenges.
• Gain insights into the future of 5G and beyond.

Learning Outcomes

Participants will be able to:

• Explain the major features and architecture of 5G networks.
• Identify use cases and applications for 5G in various industries.
• Address security challenges and deployment strategies for 5G.
• Develop a roadmap for 5G deployment tailored to specific needs.

Who Should Attend

• Telecom Engineers
• Managers and RF Planning Engineers
• Professionals working on 4G/3G/2G technologies who want to understand 5G.

Prerequisites

• Basic knowledge of telecom, 3G, 4G LTE technology, and LTE Air Interface.

Why Choose This Course

• Hands-on practical exercises and case studies.
• Comprehensive focus on technology, deployment, and future trends.
• 100% HRDC Claimable.

Key Topics

Day 1: Introduction to 5G Technology

• Evolution of mobile networks and key differences between 4G and 5G.
• 5G architecture, latency, throughput, and spectrum management.
• Hands-on exercise: Comparing LTE and 5G deployment challenges.

Day 2: Enabling Technologies and Use Cases

• Massive MIMO, beamforming, network slicing, and edge computing.
• Deployment scenarios for urban, suburban, and rural areas.
• Hands-on exercise: Designing a 5G use case for a specific industry.

Day 3: Security, Challenges, and Future Trends

• 5G security threats, privacy concerns, and mitigation strategies.
• Infrastructure challenges and backhaul upgrades.
• Hands-on exercise: Building a roadmap for 5G deployment.

Teaching Methodologies

• Lectures, presentations, and hands-on practical exercises.
• Group discussions, simulation-based training, and problem-solving workshops.

5G

Course Overview

This 5-day training program provides a comprehensive understanding of 5G New Radio (NR), including its architecture, air interface, protocols, and operations. The course covers advanced topics like massive MIMO, network slicing, and cloud RAN. Participants will explore foundational concepts, key features, and real-world deployment scenarios, equipping them to work with the latest advancements in 5G NR as defined by 3GPP standards.

Course Objectives

• Understand the architecture and requirements of 5G NR.
• Learn about 5G air interface protocols and key features like network slicing and massive MIMO.
• Gain insights into operations and procedures of 5G RAN, including QoS architecture and mobility management.
• Explore supplementary services like V2X communication and emergency alerts.

Learning Outcomes

Participants will be able to:

• Explain 5G NR architecture and air interface protocols.
• Configure and manage 5G RAN procedures, including initial access and mobility.
• Evaluate 5G Key Performance Indicators (KPIs) and QoS impacts.
• Understand advanced features like massive MIMO and cloud RAN.

Who Should Attend

• Telecom Engineers
• Network Managers
• RF Engineers
• Solution Architects
• Technical Managers

Prerequisites

• General knowledge of mobile communication networks, particularly air interfaces.

Why Choose This Course

• In-depth exploration of 5G NR with hands-on labs and practical scenarios.
• Detailed focus on protocols, KPIs, and advanced features like mmWave and beamforming.
• 100% HRDC Claimable.

Key Topics

Day 1: Introduction and Radio Access Architecture

• Evolution of mobile networks and 5G drivers.
• 5G RAN architecture, interfaces, and deployment scenarios.

Day 2: Physical Layer and Radio Interface Protocols

• Modulation, channel evaluation, and MIMO technologies.
• Layer 2 functions and TTI durations.

Day 3: RRC Sublayer and Initial Access

• UE states, system information, and random access procedures.
• Definitions and evaluation of 5G KPIs.

Day 4: RAN Procedures and Key Features

• Dual connectivity, mobility, and PDU session management.
• Features like mmWave, 3D beamforming, and LWA.

Day 5: Cloud RAN and Supplementary Services

• Architecture and resource management in cloud RAN.
• Emergency communication systems and V2X.

Lab Requirements

• 64-bit CPU PC, 16GB RAM, 50GB free disk space.
• Tools like Keysight, Anritsu, and Wireshark.
• Cloud access for practical exercises on network slicing and cloud RAN.

Teaching Methodologies

• Hands-on labs, interactive lectures, and real-world case studies.
• Group discussions and live demonstrations.

5G

Course Overview

This 5-day training course equips participants with the skills to configure and operate a Non-Standalone (NSA) based 5G/NR radio access network. It covers the key features and functionalities of 5G RAN, including transport and radio network management, configuration, and performance optimization. Participants will learn theoretical concepts and engage in practical exercises to implement 5G configurations using vendor-specific tools.

Course Objectives

• Understand the key aspects of 5G/NR RAN configuration and operation.
• Learn to manage configuration, performance, and fault management for 5G/NR NSA networks.
• Develop expertise in using tools for RAN node management.
• Gain insights into the integration, operation, and security of 5G/NR networks.

Learning Outcomes

Participants will be able to:

• Configure and operate NSA-based NR radio networks.
• Understand the tools and processes for 5G RAN implementation and optimization.
• Manage transport network functionalities and synchronization options.
• Handle security management in 5G/NR NSA deployments.

Who Should Attend

• Operation and Maintenance Engineers
• Second-Line Engineers
• Technical Support Engineers
• Routine Maintenance Technicians

Prerequisites

• Basic knowledge of telecom technology and hardware.
• Prior training in LTE/SAE System Overview, 5G Overview, Radio System Overview, and 5G RAN NR System Techniques.

Why Choose This Course

• Comprehensive focus on 5G/NR RAN configuration and management.
• Hands-on labs and simulation-based training.
• 100% HRDC Claimable.

Key Topics

5G Introduction and Roadmaps

• Overview of 5G technologies, spectrum, and use cases.
• Roadmaps and software tools for 5G RAN implementation.

5G/NR Hardware and Software

• Baseband units, antenna systems, and related software.

RAN Architecture and Network Evolution

• Deployment options, dual connectivity, and NR cell configurations.

Transport Network Functionalities and MOM

• Interfaces, protocols, and synchronization in NSA deployments.
• IP and Ethernet functionalities of RAN compute.

Integration, Operation, and Security Management

• Tools and processes for integration of gNodeB and eNodeB.
• Configuration, performance, and fault management.

Teaching Methodologies

• Lectures and presentations
• Hands-on labs and simulations
• Practical exercises in network configuration
• Case studies and group discussions

5G

Course Overview

This 1-day course introduces 5G technology in an accessible format designed for non-technical professionals. It provides an overview of mobile network evolution, emphasizing 5G's unique features, benefits, and applications across industries. The training explains key concepts such as network architecture, mmWave spectrum, and deployment scenarios, focusing on the transformative impact of 5G on businesses and society. Ideal for professionals who wish to understand the value of 5G without technical details, the course highlights its business and societal benefits.

Course Objectives

• Learn the development and evolution of mobile networks leading to 5G.
• Understand key 5G applications and protocol standards.
• Explore 5G's impact on industries and its societal benefits.
• Comprehend the business implications of 5G technologies, including low latency and high bandwidth.

Learning Outcomes

Participants will be able to:

• Identify 5G’s transformative features and applications.
• Recognize the benefits of high bandwidth, large connections, and low latency.
• Appreciate 5G’s new spectrum and technologies like Massive MIMO and Network Slicing.

Who Should Attend

• Business professionals and executives.
• Marketing and sales teams.
• Industry analysts and policymakers.
• Non-technical individuals interested in 5G's business and societal implications.

Prerequisites

• No technical background required.

Why Choose This Course

• Tailored for non-technical audiences with a focus on practical benefits.
• Interactive sessions featuring real-world case studies and group discussions.
• 100% HRDC Claimable.

Key Topics

Module 1: 5G Evolution

• Overview of mobile network evolution from 1G to 5G.
• Simplified 5G architecture and protocol standards.

Module 2: 5G Applications and Usage

• Enhanced Mobile Broadband (eMBB), IoT, and URLLC use cases.
• Global 5G deployment progress and case studies.

Module 3: 5G Network Benefits

• High bandwidth, large connections, and low latency explained.

Module 4: 5G Network Transformation

• Spectrum allocation evolution, including mmWave usage.
• Introduction to enabling technologies like Massive MIMO and Network Slicing.

Lab Requirements

• No lab setup required.
• Presentation slides, videos, and case studies provided.

Teaching Methodologies

• Interactive lectures, visual aids, and infographics.
• Group discussions, Q&A, and real-world case studies.

5G

Course Overview

This 5-day training program focuses on the essentials of 5G network planning, design, and optimization. It addresses key aspects such as Radio Network Planning (RNP), spectrum requirements, air interface technologies, and parameter planning to ensure that 5G networks meet specific coverage, capacity, and QoS goals. Participants will explore theoretical concepts alongside hands-on practical sessions with tools like Atoll, learning how to design and optimize next-generation networks effectively.

Course Objectives

• Understand the motivation for 5G network planning and design.
• Learn 5G network architecture, protocols, and components.
• Develop strategies for deploying and managing 5G networks.
• Gain proficiency in using network planning tools for practical applications.

Learning Outcomes

Participants will be able to:

• Specify the requirements and challenges of 5G RNP.
• Design 5G network architecture with protocols and components.
• Utilize RNP tools to perform detailed network planning.
• Apply knowledge of spectrum, physical layers, and initial parameter settings for 5G deployments.

Who Should Attend

• LTE and 5G Radio Network Planners
• RF and Radio Performance Engineers
• Project Managers, Operators, and Regulators
• Professionals in telecom network design and optimization

Prerequisites

• Basic knowledge of telecom (3G, 4G LTE), LTE Air Interface, and network planning concepts.

Why Choose This Course

• Covers both foundational and advanced aspects of 5G RNP.
• Interactive sessions with hands-on practical exercises.
• Industry-focused training for professionals involved in network design and optimization.
• 100% HRDC Claimable.

Key Topics

Day 1: 5G Requirements, Spectrum, and Air Interface

• Introduction to 5G requirements and bandwidth.
• Overview of 5G air interface techniques and technologies.

Day 2: 5G Physical Layer Aspects

• Duplexing modes, frame structures, and channel evaluation.
• Technologies like coding schemes, TDD, and MIMO.

Day 3: Air Interface Overhead and Cell Range

• Link budget calculations and propagation models.
• Traffic modeling, cell capacity evaluation, and baseband dimensioning.

Day 4: Initial Parameter Planning

• Channel and PCI configuration parameters.
• SS-PBCH and UL DM configuration for NR planning.

Day 5: Case Studies and Final Discussions

• Practical case studies and problem-solving sessions.
• Quizzes, assessments, and Q&A wrap-up.

Lab Requirements

• PC with 64-bit CPU, 16GB RAM, 50GB disk space.
• Tools like Atoll for practical RNP exercises.
• Internet access for cloud-based resources.

Teaching Methodologies

• Lectures, hands-on labs, case studies, and quizzes.
• Group discussions and problem-solving sessions.

5G

Course Overview

This 5-day training program focuses on advanced 5G network planning, design, and optimization. It addresses methods, tools, and procedures essential for Radio Network Planning (RNP) to meet the requirements of 5G networks. Participants will explore dual connectivity with LTE, baseband and cloud dimensioning, parameter planning, and practical network modeling using industry tools like Atoll. This hands-on course equips professionals with the skills needed to design and optimize 5G NR networks for specific coverage, capacity, and quality of service (QoS) needs.

Course Objectives

• Understand 5G requirements, spectrum, and physical layer aspects.
• Develop 5G network designs, including LTE-5G dual connectivity.
• Apply Radio Network Planning (RNP) principles for 5G.
• Master baseband and cloud dimensioning techniques.
• Gain hands-on experience with network modeling tools.

Learning Outcomes

Participants will be able to:

• Plan and optimize 5G NR networks using advanced methodologies.
• Perform network modeling for different 5G frequency bands and configurations.
• Develop strategies for baseband and virtualized network function (VNF) dimensioning.
• Configure initial parameters for 5G deployments.

Who Should Attend

• Radio Network Planning Engineers
• RF Engineers and Performance Engineers
• LTE Network Planners
• Project Managers
• Telecom Operators and Regulators

Prerequisites

• Basic knowledge of telecom, 3G, 4G LTE technologies, and 5G planning.

Why Choose This Course

• Hands-on practical sessions with industry-standard tools like Atoll.
• Comprehensive focus on 5G NR planning and optimization techniques.
• 100% HRDC Claimable.

Key Topics

Day 1: 5G Basics and Dual Connectivity

• Overview of 5G requirements, spectrum, and physical layer.
• 5G-LTE dual connectivity and its features.

Day 2: Baseband and Cloud Dimensioning

• RAP capacity calculations and gNB dimensioning.
• Virtualized network function (VNF) dimensioning for cloud.

Day 3: Initial Parameter Planning and Network Modeling

• Configuration parameters for NR PRACH, PCI, and SS-PBCH.
• Modeling for 5G NR frequencies, numerologies, and carrier widths.

Day 4: Advanced Network Modeling

• Self-contained slot formats, dual connectivity, and inter-band carrier aggregation.

Day 5: Coordinated Multipoint (CoMP) and Beamforming

• Advanced modeling of massive MIMO and 3D beamforming.
• C-RAN architecture and service modeling.

Lab Requirements

• PC with 64-bit CPU, 16GB RAM, and 50GB disk space.
• Tools like Atoll for network modeling.
• Cloud and virtualization tools for dimensioning exercises.

Teaching Methodologies

• Hands-on labs with network simulation tools.
• Group discussions and real-world case studies.

5G

Course Overview

This 5-day course provides an in-depth exploration of the 5G Core Network, focusing on its architecture, functionalities, and innovations. It covers the transition from 4G to 5G, emphasizing advancements like faster speeds, lower latency, and support for massive connectivity. Topics include new radio architecture, network slicing, NFV, MEC, and the move to cloud-native networks. Participants will gain the knowledge and skills to design, implement, and manage 5G core networks effectively.

Course Objectives

• Understand 5G Core Network drivers, specifications, and use cases.
• Differentiate between 4G and 5G architectures.
• Learn about protocols, interfaces, and deployment scenarios for the 5G Core Network.
• Explore network slicing and virtualization concepts.
• Analyze 5G call flows and security aspects.

Learning Outcomes

Participants will be able to:

• Explain the architecture and specifications of the 5G Core Network.
• Implement and manage NFV, MEC, and cloud-native networks.
• Design and deploy network slicing for diverse use cases.
• Understand and configure 5G QoS parameters and voice integration.

Who Should Attend

• Telecom Engineers
• Network Managers
• RF Planning & Optimization Engineers
• Solution Architects
• Technical Managers

Prerequisites

• Basic understanding of telecom, 3G, 4G LTE technology, and 5G Architecture.

Why Choose This Course

• Extensive hands-on labs and real-world scenarios.
• Detailed focus on the 5G Core Network, including protocols, security, and deployment.
• 100% HRDC Claimable.

Key Topics

Day 1: Introduction and LTE/SAE/EPC Concepts

• Drivers and specifications of 5G.
• Evolution from 4G to 5G.

Day 2: New Radio and Core Network Architecture

• New radio features, interfaces, and protocols.
• Cloud-native core network and SSC modes.

Day 3: NFV, MEC, and Network Slicing

• Virtualization in 5G networks and MEC applications.
• Network slicing lifecycle and use cases.

Day 4: QoS, Protocols, and Voice over NR (VoNR)

• Understanding QoS parameters and VoNR call flows.

Day 5: Deployment Scenarios and Security

• Deployment challenges and considerations.
• Security and detailed 5G call flows.

Lab Requirements

• PC with 64-bit CPU, 16GB RAM, 50GB disk space.
• Virtualization tools (VMware, VirtualBox).
• Access to 5G Core Network simulators.
• Cloud access for practical exercises.

Teaching Methodologies

• Hands-on labs and interactive demonstrations.
• Real-world case studies and group discussions.

5G

Course Overview

This 3-day course delves into the architecture of 5G networks, exploring key components such as end-to-end network slicing, service-based architecture, Software-Defined Networking (SDN), and Network Functions Virtualisation (NFV). It covers how 5G supports diverse applications, from enhanced mobile broadband to critical machine communication. Participants will learn to design, implement, and optimize 5G networks through topics like network virtualization, slicing, and Open RAN (O-RAN).

Course Objectives

• Understand the architecture and evolution of 5G technology.
• Explore 5G E2E architecture for NSA and SA deployments.
• Learn about network virtualization and containerized network functions.
• Understand network slicing and its use in various applications.
• Explore 5G O-RAN and its role in modern telecom ecosystems.

Learning Outcomes

Participants will be able to:

• Comprehend 5G E2E architecture and its deployment models.
• Implement virtualization techniques in 5G networks.
• Design and manage network slices for specific use cases.
• Understand O-RAN principles and their operational impact.

Who Should Attend

• Telecom Engineers
• Solution Architects
• Security Experts
• Technical Managers
• RF Planning & Optimization Engineers

Prerequisites

• Basic knowledge of telecommunications, 3G, and 4G technologies.

Why Choose This Course

• Comprehensive exploration of 5G architecture, including advanced concepts like NFV and O-RAN.
• Hands-on workshops with real-world applications.
• 100% HRDC Claimable.

Key Topics

Day 1: 5G Overview and Architecture

• 5G introduction, evolution, and ecosystem enhancement.
• E2E 5G architecture for NSA and SA deployments.

Day 2: Network Virtualization and Slicing

• NFV architecture and its application in 5G networks.
• Network slicing lifecycle management and use cases.

Day 3: Open RAN (O-RAN)

• Introduction to O-RAN and its architecture.
• Deployment models, logical functions, and orchestration frameworks.

Lab Requirements

• 64-bit PC with 8GB RAM, 20GB disk space.
• Virtualization software (e.g., VMware, VirtualBox).
• Access to cloud platforms (e.g., AWS, Azure).
• Tools like Kubernetes and Docker for container orchestration.
• 5G Core Network emulators for hands-on practice.

Teaching Methodologies

• Workshops and interactive demonstrations
• Case studies and group discussions

5G

Course Overview

This 1-day training program offers a comprehensive introduction to 5G technology. It emphasizes its evolution from 4G, key applications driving development, and core technologies defining its standards. Participants will explore the challenges of existing systems and the innovations in 5G, including Massive MIMO, mmWave usage, and advancements in core network technologies like NFV and SDN. This course is tailored for professionals seeking to understand 5G’s current state, its standardization, and its future impact on wireless communication.

Course Objectives

• Understand the transition from 1G to 4G and the advancements leading to 5G.
• Identify applications and use cases driving 5G adoption.
• Learn about 5G technologies like spectrum allocation, mmWave, and latency reduction techniques.
• Explore 3GPP standardization efforts and the timeline for 5G.

Learning Outcomes

Participants will be able to:

• Analyze the current state and limitations of 4G technologies.
• Explain key applications and scenarios fueling 5G development.
• Recognize fundamental 5G technologies and their challenges.
• Understand the role of innovations like Massive MIMO and mmWave in network performance.

Who Should Attend

• R&D Engineers
• Management Teams
• Technical Managers
• Leadership Teams
• Technical Team Members

Prerequisites

• Basic knowledge of cellular systems (2G–4G).

Why Choose This Course

• High-level overview with focus on real-world applications and challenges.
• Interactive sessions with visual aids, case studies, and group discussions.
• 100% HRDC Claimable.

Key Topics

Module 1: Introduction and Basics (3 Hours)

• Evolution from 1G to 4G and advancements in LTE (Advanced and Pro).
• Challenges of existing wireless technologies and the need for 5G.
• Overview of 5G applications, including connected cars and low-power IoT.
• Status of 3GPP standardization for 5G.

Module 2: 5G Technology Aspects (4 Hours)

• 5G spectrum allocations and mmWave usage challenges.
• New technologies for IoT, Massive MIMO, and latency reduction techniques.
• Core innovations like NFV, SDN, and localized network operations.

Lab Requirements

• No physical lab setup required.
• Materials include presentations, videos, and case studies.

Teaching Methodologies

• Instructor-led lectures
• Visual aids and infographics
• Group discussions and Q&A

5G

Course Overview

This 5-day intensive training program offers an in-depth understanding of 5G network operations and maintenance. It focuses on 5G architecture, management, troubleshooting, and optimizing performance. Participants will learn about 5G radio access architecture, interfaces, deployment scenarios, and operations of 5G NR base stations through practical sessions and case studies.

Course Objectives

• Gain comprehensive knowledge of 5G network architecture and operations.
• Develop skills for troubleshooting and resolving 5G network issues.
• Learn to manage and optimize 5G network parameters and performance.
• Understand 5G-specific maintenance and reliability measures.

Learning Outcomes

Participants will be able to:

• Comprehend the architecture and high-level requirements of 5G networks.
• Configure, operate, and optimize 5G radio parameters.
• Troubleshoot 5G network faults, including interface and cell issues.
• Use performance measurement tools to analyze KPIs.
• Manage 5G-specific maintenance events to enhance network performance.

Who Should Attend

• Telecom Engineers
• Network Managers
• RF Planning & Optimization Engineers
• Operations and Maintenance Technicians
• Technical Managers

Prerequisites

• Basic knowledge of telecom, 3G, and 4G LTE technology.
• Understanding of LTE Air Interface and 5G Architecture.
• Familiarity with BSS, OSS, O&M, and I&C in telecom networks.

Why Choose This Course

• Comprehensive hands-on labs and real-world case studies.
• Interactive teaching methods with group discussions and demonstrations.
• Practical experience with 5G NR base station simulation tools and network management software.
• 100% HRDC Claimable.

Key Topics

Day 1: Introduction to 5G and Radio Access Architecture

• 5G overview, use cases, and high-level requirements.
• Architecture and interfaces in NSA and SA deployment scenarios.

Day 2: Huawei 5G-NR BTS OAM and Hardware

• Hardware of base stations, AAUs, and configuration parameters.
• Description of northbound interfaces and MOM functions.

Day 3: Alarms and Troubleshooting

• Addressing interface faults, cell availability, and degraded performance.

Day 4: Performance Monitoring and KPIs

• Detailed examination of performance counters and KPIs, including data rate, latency, and energy efficiency.

Day 5: Maintenance Events and Mobility Management

• Explanation of key maintenance events, QoS architecture, and handover impacts.

Lab Requirements

• PC with 64-bit CPU, 16GB RAM, and 50GB free disk space.
• Windows 10 or macOS Sierra or higher.
• Access to 5G NR base station simulation tools, network monitoring software, and a 5G core network.