Module CS5158-KP04, CS5158
Advanced Internet Technologies (AdInternet)
Duration
1 Semester
Turnus of offer
every summer semester
Credit points
4
Course of studies, specific fields and terms:
- Master Media Informatics 2020, optional subject, computer science
- Master Medical Informatics 2019, optional subject, ehealth / infomatics
- Master Medical Informatics 2014, optional subject, ehealth / infomatics
- Master Media Informatics 2014, optional subject, computer science
- Master Computer Science 2012, optional subject, advanced curriculum enterprise IT
- Master Computer Science 2012, optional subject, specialization field software systems engineering
- Master Computer Science 2012, optional subject, advanced curriculum distributed information systems
Classes and lectures:
- Advanced Internet Technologies (exercise, 1 SWS)
- Advanced Internet Technologies (lecture, 2 SWS)
Workload:
- 45 hours in-classroom work
- 60 hours private studies
- 15 hours exam preparation
Contents of teaching:
- 1. Fundamentals: Internet architecture, Border Gateway Protocol (BGP), Multi-Protocol Label Switching (MPLS)
- 2. Software-Defined Networking (SDN): Rationale, OpenFlow, P4
- 3. Transport Layer: QUIC, HTTP3, MQTT, IoT
- 4. Specialized network architectures: named data networking (NDN), LoRaWAN, delay-tolerant networking (DTN)
- 5. Future topics: security, future of the Internet
Qualification-goals/Competencies:
- Students understand the fundamental design decisions that led to the development of Internet protocols.
- They are familiar with basic, generally applicable criteria for network design (end-to-end argument, fate sharing, etc.).
- They can explain and apply current routing methods such as BGP, MPLS, and SDN in detail.
- They can explain the differences between modern transport protocols such as QUIC, HTTP, and MQTT and their predecessors, describe the protocols, and use them in their application contexts.
- They are familiar with the basic principles of current specialized network technologies such as NDN, LoRaWAN, and DTN and know when and how to use them.
- They have a clear idea of the development paths the Internet may follow in the future.
Grading through:
- Oral examination
Responsible for this module:
Literature:
- Kurose, J. F., & Ross, K. W. : Computer Networking: A Top-Down Approach 9. Ed., Pearson., 2025 /li>
- Chataut, R., Sharma, H., & Akl, R. : A Comprehensive Review of IoT Applications and Future Prospects. Sensors MDPI, 2023 /li>
- Akamai Technologies : HTTP/3 and QUIC: Past, Present, and Future 2021 /li>
- Saxena, D. : Named Data Networking: A Survey. Computer Science Review Elsevier, 2016 /li>
- Castillo, V., Gómez, Á., Salcedo, J., & López, L. : Delay and Disruption Tolerant Networking for Terrestrial and TCP/IP Applications: A Systematic Literature Review Journal of Cybersecurity and Privacy, 4(3), 493520. MDPI, 2024 /li>
Language:
- German and English skills required
Notes:
Admission requirements for taking the module:- None
Admission requirements for participation in module examination(s):
- None
Module Examination(s):
- CS5158-L1: Advanced Internet Technologies, oral examination, 100% of module mark.
(Was also part of CS4518-KP12)
Last Updated:
26.08.2025