-
. You can find more information about us on the Department of Information Technology website . At the Division of Systems and Control, we develop both theory and concrete tools to design systems
-
characteristic of all ENERCON wind turbines. ENERCON is also a pioneer in areas such as rotor blade design, control or grid connection technology and repeatedly demonstrates its great innovative strength with a
-
printed circuits, as well as being involved in the design and analysis of the circuits. Materials and technology must be chosen based on a circular sustainability perspective, with high demands on the reuse
-
grid. With the electric power grid rapidly transitioning towards 100% renewable energy production, the demand for new innovative system service design is increasing. The main purpose of the project is to
-
the program is of crucial importance for the admission. The evaluation is primarily based on the academic record as documented in the texts and the research plan submitted by the applicant. Additionally
-
the Programming Languages group that currently consists of 6 faculty and 7 PhD students that are working on different aspects of programming language design and verification. Beyond technical collaborations
-
and Control, we develop both theory and concrete tools to design systems that learn, reason, and act in the real world based on a seamless combination of data, mathematical models, and algorithms. Our
-
tools to design systems that learn, reason, and act in the real world based on a seamless combination of data, mathematical models, and algorithms. Our research integrates expertise from machine learning
-
to the following research projects: Project 1: The Growing Firm - Decisions about Innovation and Global Expansion Firm growth is a central feature in the study of businesses. Firms desire to escape becoming stagnant
-
can find more information about us on the Department of Information Technology website . At the Division of Systems and Control , we develop both theory and concrete tools to design systems that learn