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Johannes Schiffer

From Fachgebiet Regelungssysteme TU Berlin

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Note:

I have recently moved to the University of Leeds. You can find my new contact details here: https://www.engineering.leeds.ac.uk/people/electronic/staff/j.schiffer


Address

Dr.-Ing. Johannes Schiffer

Technische Universität Berlin
Fachgebiet Regelungssysteme
Sekretariat EN11
Einsteinufer 17
D-10587 Berlin
Germany

Office: EN 240 (Elektrotechnik Neubau)
Phone: +49 (0)30 314-23573
Fax: +49 (0)30 314-21137
Email: Schiffer@control.TU-berlin.de

Teaching

Modeling and Control of Microgrids, since SS 2015

Regelungssysteme (Praktikum), since WS 2011/2012

Projektpraktikum Automatisierung (Praktikum)

Office Hours

Tuesday, 14.00 - 16.00

Research

My research interests focus on the areas of dynamics, modeling and control of Smart Grids and power systems.

Research projects: Control Concepts for Microgrids

Brief Biography

I studied Engineering Cybernetics at the University of Stuttgart, Germany from 2003 to 2009. For my diploma thesis, I spent some time at LTH in Lund, Sweden. During 2008 I was involved in the design and construction of a prototype of a solar updraft tower at Fundacion Palma, Chile in cooperation with Schlaich, Bergermann and Partner (sbp), Germany. From 2009 to 2011, I was a research associate at the Chair of Sustainable Electric Networks and Sources of Energy (SENSE) at TU Berlin. Since May 2011, I am working as a research associate in the Control Systems Group at TU Berlin.

Publications

Journal Articles

J. Schiffer, E. Fridman, R. Ortega, J. Raisch. Stability of a class of delayed port-Hamiltonian systems with application to microgrids with distributed rotational and electronic generation, 2015. Submitted.

J. Schiffer, D. Zonetti, R. Ortega, A. Stankovic, T. Sezi, J. Raisch. Modeling of microgrids - from fundamental physics to phasors and voltage sources, 2015. Submitted to Automatica.

J. Schiffer, T. Seel, J. Raisch, T. Sezi. Voltage Stability and Reactive Power Sharing in Inverter-Based Microgrids with Consensus-Based Distributed Voltage Control. IEEE Transactions on Control Systems Technology, 2015.
J. Schiffer, R. Ortega, A. Astolfi, J. Raisch, T. Sezi. Conditions for Stability of Droop-Controlled Inverter-Based Microgrids. Automatica, 50 (10):2457-2469, 2014.

Conference Proceedings (peer-reviewed)

J. Schiffer, E. Fridman, R. Ortega. Stability of a class of delayed port-Hamiltonian systems with application to droop-controlled microgrids, To appear at 54th IEEE Conference on Decision and Control (CDC) 2015, Osaka, Japan.
D. Efimov, R. Ortega, J. Schiffer. ISS of multistable systems with delays: application to droop-controlled inverter-based microgrids. In American Control Conference (ACC), pages 4664-4669, June 2015.
J. Schiffer, R. Ortega, C. A. Hans, J. Raisch. Droop-Controlled Inverter-Based Microgrids are Robust to Clock Drifts. In American Control Conference (ACC), pages 2341-2346, June 2015.
J. Schiffer, R. Ortega, A. Astolfi, J. Raisch, T. Sezi. Stability of Synchronized Motions of Inverter-Based Microgrids Under Droop Control. In 19th IFAC World Congress, pages 6361-6367, Aug. 2014.
J. Schiffer., T. Seel, J. Raisch, T. Sezi. A Consensus-Based Distributed Voltage Control for Reactive Power Sharing in Microgrids. In 13th European Control Conference (ECC), pages 1299-1305, June 2014.
J. Schiffer, D. Goldin, J. Raisch, T. Sezi. Synchronization of Droop-Controlled Microgrids with Distributed Rotational and Electronic Generation. In IEEE 52nd Annual Conference on Decision and Control (CDC), pages 2334-2339, Dec. 2013.
J. Schiffer, A. Anta, T. D. Trung, J. Raisch, T. Sezi. On Power Sharing and Stability in Autonomous Inverter-Based Microgrids. In IEEE 51st Annual Conference on Decision and Control (CDC), pages 1105 -1110, Dec. 2012.
S. Gestegaard Robertz, L. Halt, S. Kelkar, K. Nilsson, D. Schär, A. Robertsson, J. Schiffer. Precise Robot Motions Using Dual Motor Control. In Proc. IEEE International Conference on Robotics and Automation, Anchorage, AK, USA, May 2010.
I. Dressler, J. Schiffer, A. Robertsson. Modeling and Control of a Parallel Robot Using Modelica. In Proc. 7th International Modelica Conference, Como, Italy, Sep. 2009.

Ph.D. Thesis

Johannes Schiffer. Stability and Power Sharing in Microgrids. Ph.D. thesis, TU Berlin, Germany, 2015.

Tutorials

Tutorial on stability and power sharing in microgrids, Workshop on control of large-scale distributed and cooperating systems, 13th European Control Conference, June, 2014 (slides).

Supervised Theses

Ming Wang. Modeling, Implementation and Validation of Inverter-Based Distributed Generation Sources in Microgrids. Master Thesis, TU Berlin, Germany, 2015.
Philipp Zitzlaff. Impact of the communication topology on the performance of microgrids operated by distributed voltage control. Bachelor Thesis, TU Berlin, Germany, 2014.
Philipp Jorkowski. Untersuchung der Anwendbarkeit Port-Hamiltonscher Systeme zur Modellierung von Microgrids mit konsensbasierter Blindleistungsregelung. Bachelor Thesis, TU Berlin, Germany, 2014.
Ajay Krishna. Voltage Stability and Reactive Power Sharing in Microgrids with Distributed Rotational and Electronic Generation. Master Thesis, IIT Roorkee, India, 2014.
Libo Liu. Comparison of Different Modelling Approaches for Droop-Controlled Autonomous Inverter-Based Microgrids. Bachelor Thesis, TU Berlin, Germany, 2013.
Dominik Gruber. Modellierung, Systemidentifikation und Regelung einer photovoltaischen Kraftwerksanlage. Master Thesis, TU Berlin, Germany, 2013.
Jonas Milbredt. Modellierung, Validierung und Online Optimierung eines Kraftwerk Kühlwassersystems. Diploma Thesis, Siemens AG, Nuremberg, Germany, 2013.

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