The module Telematik-Projekt (Telematics-Project) introduces selected, relevant topics from the domain of computer networks. The module is a lab-course with focus on software development in small teams. As a central aspect, telecommunication systems have to be specified, communication protocols developed, and networks analyzed. Each team of students has to solve a particular assignment, which includes project management and presentation of the current and final state. Problems, ideas, and further steps shall be discussed in Plenum-style events.
The available topics change from term to term and include wired and wireless network technologies. Depending on the available infrastructure and hardware, either wireless sensor networks, wireless mesh networks, or Ethernet-based local area networks are used.
Attendance in the first two events is mandatory; additionally, the general 85% attendance rule applies. Students forfeit their course registration when missing the first two events and their positions will be reassigned.
|Dozent/in||Prof. Dr. Katinka Wolter|
|Institution||Institute of Computer Science|
Freie Universität Berlin
|Raum||Takustraße 9 K60|
Time: Tuesday, 14:00-18:00
- Lectures TI3 and Telematics or Mobile Communications
- Basics of operating systems
- Basic knowledge of the programming languages C and Python
- Basic software management skills
- Basic LaTeX skills
- Basic Subversion skills
- English, as most documentation is only available in english
- 18.10.2011, Course Introduction
- First Meeting
- Introduction to the course
- Handing out topics
25.10.2011 - 07.02.2012
- Supervised lab hours, team meetings and milestone presentations
- hand in project proposal/schedule to be read by another group (max. 5 pages)
- Presentation of project topic, objectives, assignments in the team, milestones, etc.
- Intermediate presentation of project status
Additional appointments will be announced on demand.
- No exam
- 85% attendance
- Attendance in the first two events
- Written report
- Simulation of PTP in OMNeT++
- Implementation of a 'restart'-Engine using BPEL (cont.)
- Implementation, measurement and evaluation of a Gossip protocol
- Experimental sampling of network error data
- Performance evaluation of a Cloud experiment
- Implementation of fault-injection, termination of processes (cont.)
- Integration of different netem modules
- Performance evaluation of a streaming protocol in the presence of mobility
- Performance evaluation of HTTP transmission in the presence of mobility
- Investigation of energy costs for secure communication