Registration
Start Date:
End Date:
Event dates
Start Date:
End Date:
Location
Global or multi-regional
Training topics
  • Quality of Service
  • Cybersecurity
Training modality
Online instructor led
Languages
  • English
Event mail contact
s.laskowski@il-pib.pl
Coordinators
  • Sylwester Laskowski
  • Toni Janevski
Course level

Intermediate

Payment methods
  • Bank transfer
Price
$150.00

Event organizer(s)

NIT logo
National Institute of Telecommunications (NIT)

Description

This course focuses on Security and Quality of Service (QoS) in Internet network from technology, regulation and business aspects. It covers Internet fundamentals, including Internet protocols and architectures, Internet security standards and approaches as defined by IETF (Internet Engineering Task Force), as well as ITU's security architectures for end-to-end communications. Further, the course incorporates cybersecurity approaches from the ITU viewpoint, and security aspects of emerging cloud computing and Internet of Things (IoT). Further, the course covers Internet QoS, including the standardized solutions and practical approaches for provision of end-to-end QoS. In that manner, it includes QoS parameters as defined by the ITU and QoS for data (i.e., Over-The-Top services) and mobile services. Finally, the course also covers network neutrality, Internet KPIs (Key Performance Indicators) and their measurements.

This course is targeted at managers, engineers and employees from regulators, government organizations, telecommunication companies and academia, who are interested in understanding, implementation and regulation of Security and QoS in Internet Network, including technologies, standardization, regulation and content. Other institutions and individuals that are dedicated in building their capacity related to Security and QoS in Internet Network are also welcome to participate.

No prior knowledge or qualification is required to register for this course, considering the given target population.

At the end of the training, the participant should have gained an understanding of the key aspects of:

  • Internet fundamentals
  • Internet security by IETF
  • ITU’s security architectures providing end-to-end communications
  • Cybersecurity
  • Cloud coumputing and Internet of Things (IoT) security
  • Internet QoS
  • QoS parameters
  • QoS for data and mobile broadband services
  • Network neutrality and Internet KPIs measurements
  • ITU guidelines for QoS regulation

This course will be delivered using instructor-led online learning. The course methodology will be as follows:

  • Each day from 16 to 23 June 2025 there will be made available two recorded video lectures. In total, there are 10 video lectures during the course.
  • Course forum, asynchronous, will be organized based on discussion topics raised by the instructor on a daily basis, from Course Day 1 to Course Day 5, which will cover the course material on the given day. Also, participant responses will be asynchronous, keeping in mind the different time zones and daily commitments of participants from different countries around the world.
  • General discussion forum, asynchronous, will be provided for participants to ask their own questions which can be answered by the instructor and other participants.
  • Final Quiz test will be assigned on the last day of the course, 23 June 2025.
  • All announcements for all events (lectures, quiz and forum) will be given in a timely manner (prior to the event) by the course tutor.

The evaluation of the participants will be based on 60% from the Final Quiz and 40% from the answers given in the course forum on the raised discussion topics on daily basis by the tutor, thus reflecting both the quantity and the quality of time spent on the course. 

Participation in the course forum is mandatory in order to access the Final Quiz. 

The Final Quiz will be open from 00:00 hours on Monday (23 June 2025) according to the GMT+1 time, and will remain open for 30 hours after opening, so each participant can choose the most convenient time to solve it. However, after the start of the attempt the Quiz should be completed in 90 minutes. The Final Quiz contributes with 60% in the total grade.

The course is completed successfully with a total grade of 70% or higher. The grading will be completed by the course tutor after the course is fully completed.

Each fully registered participant who successfully completes the course with a total grade of 70% or higher will receive an ITU Certificate for this course. 

The ITU certificates will be given to participants via the Â鶹ÉçÊÓƵ platform after completion of the course reporting and processing within the ITU.

Lecture 1. Internet fundamentals & Lecture 2. Internet security by IETF

Outline, discuss, use, analyze, design and evaluate the following topics using technical, business and regulatory aspects:

  • Telecommunications/ICT and Internet evolution
  • Internet protocols
  • IP addresses and domain names
  • IPv4 vs. IPv6
  • TCP connection
  • DHCP, NAT
  • Client-server and peer-to-peer Internet networking
  • Autonomous Systems
  • BGP (Border Gateway Protocol)
  • World Wide Web (WWW) and HTTP
  • Real-Time Streaming Protocol (RTSP)
  • Session Initiation Protocol (SIP)
  • Internet governance – the technical side
  • Security solutions
  • Goals of Internet security
  • Internet security on network layer – IPsec
  • Internet security on transport layer - SSL/TLS
  • Authentication, Authorization and Accounting (AAA) in Internet - RADIUS, Diameter
  • SCTP (Stream Control Transmission Protocol) use in mobile core networks
  • Firewalls (packet-filter, proxy)

Lecture 3. ITU’s security architectures providing end-to-end communications & Lecture 4. Cybersecurity

Outline, discuss, use, analyze, design and evaluate the following topics using technical, business and regulatory aspects:

  • ITU-T X.805 framework for end-to-end security5
  • Risk management, asset management
  • Governance of information security
  • Cryptographic concepts and algorithms, hashing
  • Digital signature
  • Public-Key Infrastructure (PKI) and Privilege Management Infrastructure (PMI)
  • Privacy protection
  • Identity management
  • Securing the network infrastructure
  • Framework for secure mobile end-to-end data
  • General security architecture for IPTV
  • Key cybersecurity challenges
  • ITU mandate on cybersecurity
  • Global Cybersecurity Agenda (GCA)
  • ITU Child Online Protection (COP)
  • Cybersecurity information Exchange (CYBEX)
  • Vulnerability scoring
  • Common Weakness Scoring System (CWSS)
  • Incident handling
  • Global Cybersecurity Index (GCI)
  • ITU Global Cybersecurity Agenda (GCA)

Lecture 5. Cloud computing and Internet of Things (IoT) security & Lecture 6. Overview of Internet QoS

Outline, discuss, use, analyze, design and evaluate the following topics using technical, business and regulatory aspects:

  • Cloud ecosystem, functional architecture and service categories (IaaS, PaaS, SaaS)
  • Over The Top (OTT) and telco cloud services
  • Cloud computing security challenges
  • Regulation and business aspects of cloud security
  • Internet of Things (IoT) and Web of Things (WoT)
  • IoT security examples and requirements
  • Security in Future Networks
  • Smart Sustainable Cities (SSC) and security
  • QoS, QoE and Network Performance
  • ITU’s QoS framework (viewpoints of QoS, market model)
  • Audio, video and data traffic characteristics
  • TCP behavior and Internet congestion
  • Requirements of common Internet applications
  • Packet classification, queuing, admission control
  • Internet QoS framework by IETF
  • QoS architectural framework by ITU-T (control, data and management plane)
  • Integrated services (IntServ)
  • Differentiated services (DiffServ)
  • Multi-Protocol Label Switching (MPLS)
  • Ethernet 802.1Q Class of Service
  • Deep Packet Inspection (DPI) and QoS

 

Lecture 7. QoS parameters & Lecture 8. QoS for data and mobile broadband services

Outline, discuss, use, analyze, design and evaluate the following topics using technical, business and regulatory aspects:

  • Primary and derived QoS parameters
  • QoS and Network Performance parameters
  • Model for user-centric QoS categories
  • ITU standardized QoS parameters 
  • IP network performance parameters
  • Layered model for IP networks and services
  • ITU QoS Classes
  • End-to-end QoS in an IP environment
  • KPIs, targets and measurement methods 
  • Web Browsing (HTTP) QoS parameters, KPIs for data services
  • Non-technical KPIs
  • QoS parameters measurement methodologies
  • Comparison between Telco and OTT VoIP
  • OTT multimedia streaming, social networking, cloud services
  • End-to-end QoS for data services
  • 4G Quality of Service 
  • QoS for mobile services
  • 5G/IMT-2020 Quality of Service
  • AI/ML for QoS support in 5G-Advanced and 6G
  • 6G/IMT-2030 Quality of Service

Lecture 9. Network neutrality and Internet KPIs measurements

Lecture 10. ITU guidelines for QoS regulation

Outline, discuss, use, analyze, design and evaluate the following topics using technical, business and regulatory aspects:

  • Introduction to Network Neutrality
  • Regulatory intervention for Internet access service
  • NRA imposing minimum QoS requirements
  • Network neutrality regulation  
  • Challenges regarding QoS vs. network neutrality
  • Basic network model for QoS measurements 
  • ITU's framework for monitoring QoS of IP network services, minimum set of KPIs
  • Measurement methods
  • HW and SW testing tools classification by ITU 
  • QoS evaluation scenarios by ITU at national and international levels
  • Considerations regarding Internet QoS measurements
  • ITU’s Guidelines for QoS regulation
  • Measurements aspects of QoS regulation
  • Activities in QoS Regulation
  • Information gathering and publication
  • Penalties, compensation to customers
  • SLA and QoS Regulation
  • Criteria for QoS Parameters
  • Minimum QoS parameters for mobile voice and Internet services

Registration information

Unless specified otherwise, all Â鶹ÉçÊÓƵ training courses are open to all interested professionals, irrespective of their race, ethnicity, age, gender, religion, economic status and other diverse backgrounds. We strongly encourage registrations from female participants, and participants from developing countries. This includes least developed countries, small island developing states and landlocked developing countries.

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