Resilience of smart integrated energy systems Babazadeh, Davood; Teimourzadeh Baboli, Payam; Mayer, Christoph; Brand, Michael; Becker, Christian; Lehnhoff, Sebastian In: Fathi, M., Zio, E., Pardalos, P.M. (eds): Handbook of Smart Energy Systems. Springer, Cham, 1887-1913 (2023)
Education and Training Needs, Methods, and Tools Kotsampopoulos, P.; Jensen, Tue V.; Babazadeh, Davood; Strasser, Thomas I.; Rikos, E.; Nguyen, V. H.; Tran, Q. T.; Bhandia, R.; Guillo-Sansano, E.; Heussen, Kai; Narayan, Anand; Nguyen, T. L.; Burt, G. M.; Hatziargyriou, N. In: Strasser T., de Jong E., Sosnina M. (eds) European Guide to Power System Testing. Springer, Cham. (2020) Verlags DOI
Experiences with System-Level Validation Approach Baboli, Payam Teimourzadeh; Babazadeh, Davood; Siagkas, D.; Manikas, S.; Anastasakis, K.; Merino, Julia In: Strasser T., de Jong E., Sosnina M. (eds) European Guide to Power System Testing. Springer, Cham. (2020) Verlags DOI
Test Procedure and Description for System Testing Heussen, Kai; Babazadeh, Davood; Degefa, Merkebu Z.; Taxt, H.; Merino, Julia; Nguyen, V. H.; Baboli, Payam Teimourzadeh; Moghim Khavari, A.; Rikos, E.; Pellegrino, L.; Tran, Q. T.; Jensen, Tue V.; Kotsampopoulos, P.; Strasser, Thomas I. In: Strasser T., de Jong E., Sosnina M. (eds) European Guide to Power System Testing. Springer, Cham. (2020) Verlags DOI
Erigrid holistic test description for validating cyber-physical energy systems Heussen, Kai; Steinbrink, Cornelius; Abdulhadi, Ibrahim F.; Van Hoa, Nguyen; Degefa, Merkebu Z.; Merino, Julia; Jensen, Tue V.; Guo, Hao; Gehrke, Oliver; Bondy, Daniel Esteban Morales; Babazadeh, Davood; Andrén, Filip Pröstl; Strasser, Thomas I. Energies 14 (12): 2722 (2019) Verlags DOI
Co-simulation set-up for testing controller interactions in distribution networks Velasquez, Jorge; Castro, Felipe; Babazadeh, Davood; Lehnhoff, Sebastian; Kumm, Thomas; Heuberger, Daniel; Treydel, Riccardo; Lüken, Tim; Garske, Steffen; Hofmann, Lutz Workshop on Modeling and Simulation of Cyber-Physical Energy Systems (MSCPES 2018)
Are you deeply interested in how microchips are made, which are omnipresent in daily life such as in smartphones or medical devices? Then this course will provide you the right answers. You’ll learn how the purest microelectronic material is made of sand and how microchips are fabricated in mass production following a process of precise manufacturing steps under clean room condition.
Wenn es Sie schon immer brennend interessiert hat, wie Mikrochips, die Sie überall im Alltag in elektronischen Geräten wie Smartphones oder medizintechnischen Geräten finden, hergestellt werden, dann wird diese Veranstaltung Ihnen die passenden Antworten dazu liefern. Sie werden lernen, wie aus Sand der hochreinste Werkstoff der Mikroelektronik entsteht und wie mit einer Abfolge von präzisen Prozessschritten unter Reinraumbedingung Mikrochips in Massenproduktion hergestellt werden.
Participants:
IMPMM, ETMS, MEDMS, and everybody who is interested in Semiconductor Technology
Pre-requisites:
no specific admission requirement
Basics in physics, chemistry, material science and semiconductor devices are recommended.
Learning organisation:
Weekly lecture
Performance accreditation:
Oral exam
Miscellaneous:
Due to the limited places we'll offer a workshop with hand on lab activities in the last week of September or in the first week of October for those of you with the best exams.