PIM-FSDN pim2 4 V 5 1 no German Written exam/paper E2933 Electrical Engineering and Information Technology 1 optional course KI759 Computer Science and Communication Systems 1 optional course KIM-FSDN Computer Science and Communication Systems 1 optional course PIM-WI68 Applied Informatics 1 optional course PIM-FSDN Applied Informatics 1 optional course PIM-FSDN Applied Informatics 1 optional course TIM-FSDN Technical Computer Science 1 optional course 60 class hours (= 45 clock hours) over a 15-week period.The total student study time is 150 hours (equivalent to 5 ECTS credits).There are therefore 105 hours available for class preparation and follow-up work and exam preparation. Prof. Dr. Damian Weber dw Prof. Joberto Martins jm After successfully completing this course, students will be able to classify all of the consequences of adopting Software Defined Networking (SDN) to the applications development process. Students will be able to assess the impact of SDN for the TCP/IP architecture. They will also be capable of explaining and implementing openflow-based applications. In addition, students will be capable of designing control and monitoring frameworks and writing a concept for a deploying mechanism of such tools using advanced concepts such as federation. 1. Networking Architectural Approaches and Issues: - Actual IP architecture scenario and new requirements - Software Defined Networking (SDN) - Architectural issues: naming, addressing, mobility, scalability, autonomy and virtualization 2. OpenFlow Protocol: - OpenFlow (OF) architecture - OF protocol - OF and virtualization - OF use cases: virtual router, level 2 virtualization, other - OF experimentation with MiniNet (hands-on exercises) 3. Experimental Networks (EN): - Experimental Networks principles - user-defined, large and innovative experiments, users, reproducibility, scaling and monitoring: . Experiment (project) requirements . Experiment (project) planning . Experiment (project) execution . Experiment (project) monitoring - CMF _ Control and Monitoring Framework _ model and components - Experimental network OFELIA (OpenFlow in Europe: Linking Infrastructure and Applications) _ Architecture: components, tools, experimentation facilities, monitoring - Experimental Network OMF (Orbit Management Framework) _ Architecture: components, tools, experimentation facilities, monitoring - Experimental Network FIBRE EU-BR (Future Internet Testbed Experimentation between Brazil and Europe) _ Architecture: components, tools, experimentation facilities, monitoring - Experimental networks monitoring: - Architecture, components and issues on monitoring an experiment using an "Experimental Network" (EN) - Study case: FIBRE EU-BR I&M Architecture - Experimental Networks Federation: . Federation principles . SFA (Slice-based Federation Architecture) approach - Experimental Networks "hands-on" exercise: Exercise: create a project/experiment on one of the above experimental networks (OFELIA, OMF or FIBRE) 4. Future Internet - Trends and Scenarios: - QoS (Quality of Service) and QoE (Quality of Experience) in FI - FI use cases - FI research WS 2018/19 WS 2017/18 Sat May 9 22:40:05 CEST 2026, CKEY=kfienas, BKEY=pim2, CID=[?], LANGUAGE=en, DATE=09.05.2026