Modul CS4518-KP12

Current and Future Network Technologies (AzuNet)


2 Semester
Turnus of offer:

each semester
Credit points:

Course of studies, specific field and terms:
  • Master Computer Science 2019 (optional subject), advanced module, Arbitrary semester
  • Master IT-Security 2019 (optional subject), Elective Computer Science, 1st or 2nd semester
  • Master Entrepreneurship in Digital Technologies 2020 (optional subject), technology field computer science, 2nd or 3rd semester
Classes and lectures:
  • Seminar Internet of Things or Seminar Nano communication networks (seminar, 2 SWS)
  • Advanced Internet Technologies (lecture, 2 SWS)
  • Nano communication networks (project work, 1 SWS)
  • Nano communication networks (lecture, 2 SWS)
  • Advanced Internet Technologies (exercise, 1 SWS)
  • 105 Hours in-classroom work
  • 165 Hours private studies
  • 45 Hours exam preparation
  • 30 Hours work on an individual topic with written and oral presentation
  • 15 Hours work on project
Contents of teaching:
  • Fundamental Internet design principles
  • Problems of today's Internet architecture
  • Backbone Technologies
  • Mobile Internet
  • IPv6 und related topics
  • Delay Tolerant Networks (DTN)
  • Internet of Services / Internet of Things
  • Peer-To-Peer networks
  • Big Data
  • Goals, architectures, algorithms, and protocols for the future Internet
  • Self-assembly systems
  • Reductions and compilation
  • Definitions & associations of nanonetworks
  • Simulation tools for nanonetworks
  • Deployment in medical application scenarios
  • The students understand the fundamental design decisions that led to the development of the Internet network protocols.
  • They know basic, general criteria for designing networks (end-to-end argument, fate sharing, etc.).
  • They learn about technological and social developments that have led to massive changes in the Internet infrastructure (growth, innovations such as mobile communication, etc.)
  • They recognize the problems of the current internet architecture and can derive potential solutions by comparing them with alternative approaches.
  • Sie lernen das Forschungsgebiet des Future Internet kennen und begegnen so einer Reihe aktueller Ansätze, die das Internet der Zukunft erforschen.
  • Students know and understand the basic concepts of nanonetworks.
  • Students know the basic concepts of nanoscale computational models.
  • Students know and understand self-assembly systems and crystal formation.
  • Students know and understand the constraints and peculiarities at the nanoscale.
  • Students know how to verify or falsify a model using simulation tools.
  • Students can transfer basic theoretical concepts to related questions.
Grading through:
  • Oral examination
Responsible for this module:
  • Olivier Hersent, David Boswarthick, Omar Elloumi: The Internet of Things: Key Applications and Protocols - Wiley, 2012
  • Athanasios V. Vasilakos, Yan Zhang, Thrasyvoulos Spyropoulos: Delay Tolerant Networks: Protocols and Applications - CRC Press, 2012
  • E. Pacitti, R. Akbarinia, M. El-Dick: P2P Techniques for Decentralized Applications - Morgan & Claypool Publishers
  • English, except in case of only German-speaking participants

Admission requirements for taking the module:
- None

Admission requirements for participation in module examination(s):
- Successful participation in the seminar

Module Exam(s):
- CS4518-L1: Current and Future Network Technologies, oral exam, 100% of module grade.

Letzte Änderung: