• Von Meier, A., 2006. Electric power systems: a conceptual introduction. John Wiley & Sons. • Math H. J. Bollen, Fainan Hassan, Integration of Distributed Generation in the Power System, Wirely, 2011 • Ali Keyhani, Design of Smart Power Grid Renewable Energy Systems, Wiley, 2011 • Holger Karl, Andreas Willig, Protocols and Architectures for Wireless Sensor Networks, Wiley, 2005 • A. Berl, A.Fischer, and H. de Meer. Using System Virtualization to Create Virtualized Networks. Workshops der Wissenschaftlichen Konferenz Kommunikation in Verteilten Systemen (WowKiVS2009), Kassel, Germany, March 2-6, 2009. vol. 17, EASST, 2009.
Presence in the first and the second lecture is mandatory for enrollment. The course is limited to 36 students. The registration for the course is binding. The exam is a portfolio examination and consists of three parts: Discussion panel (40%): A short talk about a topic closely related to the previous lecture held by a small group of students. The topics to choose from will be announced in the respective previous lecture. Solution presentation (40%): Students assign themselves to a fixed tutorial slot for the whole semester. A weekly task sheet will be uploaded after the lecture. In each tutorial, students will be chosen randomly to present and explain their solution. Oral exam (20%): A short oral questioning about the lecture content at the end of the lecture period. To pass the exam, all parts of the portfolio have to be completed successfully.
Lecture content: The physics of electricity, basic circuit analysis, AC power, generators, loads, transmission and distribution, power flow analysis, system performance, system operation, management, and new technology