iNeP - integrierte Netzentwicklungsplanung für die Energieträger Strom, Gas und Wärme Vorwerk, Daniela; Schulz, Detlef; Micheely, Stefan; Koch, Oliver Henry; Cosler, Cristoph; Heise, Johannes; Mostafa, Marwan; Povel, Alexander; Töbermann, Christian Stand der Technik und Digitalisierung bei integrierten Energiesystemen, Sektorenkopplungs- und Mobilitätstechnologien. - Hamburg : HSU, 2021. - (Hamburger Beiträge zum technischen Klimaschutz ; Bd. 3). - Seite 47-56 (2021)
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Verlags DOI
This is a project-based, task-oriented course, where the students get a hands-on experience with a network simulator.
In the course necessary basic stochastics and the discrete event simulation are introduced. Also simulation models for communication networks, for example, traffic models, mobility models and radio channel models are presented in the lecture. Students work with a simulation tool, where they can directly try out the acquired skills, algorithms and models. At the end of the course increasingly complex networks and protocols are considered and their performance is determined by simulation.
The examination at the end of the semester consists of a project where the students take on the role of network consultants that have to analyze a problem in a complex scenario via simulations. The students have multiple weeks to work on the task and have to summarize there findings in a written report and a presentation.
Lecture Contents
- Introduction to Concepts of a Simulator
- Stochastic / Distribution Functions
- Random Number Generation
- Simulation Models used in a Simulator (Traffic, Mobility, Radio Propagation, etc.)
- Hypothesis Testing (Chi-Square Test, etc.)
- Analysis of Results (Confidence Interval)
- Wireless LAN
- Network Emulation
- Advanced Topics in Simulation
Voraussetzungen:
Understanding of basic principles of communication networks and their protocols as presented in 'Communication Networks' or 'Computer Networks' Lectures.
Basic Knowledge in Stochastics.
Basic programming knowledge, especially C++ (to work with OMNeT++ networking simulator)
Leistungsnachweis:
605 - Communication Networks II - Simulation and Modeling<ul><li>605 - Communication Networks II - Simulation and Modeling: mündlich</li></ul><br>606 - Simulation of Communication Networks<ul><li>606 - Simulation of Communication Networks: mündlich</li></ul>
Sonstiges:
More details are at the following links, work with the VPN connection.
TUHH Module Description: Simulation of Communication Networks :
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Publications about this Course:
The concept and structure of this course was published in our paper "Teaching Modelling and Analysis of Communication Networks using OMNeT++ Simulator", for which we received the "Best Scientific Contribution Award" of the 5th OMNeT++ Summit in 2018. Parallel to the paper, we released the exercises and the final task of this year as open teaching material. https://easychair.org/publications/paper/13ck
Barthelme, J. (2022). Technisch-ökonomische Systemmodellierung und -anlayse eines urbanen Quatiers hinsichtlich des Einsatz von Wasserstoff als primärer Energieträger.