Dimitrios Papageorgiou
Associate Professor
Department of Electrical and Photonics Engineering
Electro Technology Automation and Control
Elektrovej
Building 326 Room 124
2800 Kgs. Lyngby
Danmark
Nonlinear systems Adaptive control System identification and parameter estimation Fault diagnosis Sliding-mode control Fault-tolerant control Motion control Nonlinear observers
Dimitrios Papageorgiou is Assistant Professor of Automation and Control at DTU Electrical Engineering, Automation and Control group. His research interests focus in nonlinear, adaptive and sliding-mode control for electromechanical systems, as well as in estimation methods for fault diagnosis and system monitoring. The application fields for his research range from industrial manufacturing floors and robotic manipulators to marine vessels and unmanned vehicles. He received his PhD in Automation and Control from DTU in 2017, in which he focused on high-accuracy nonlinear control for machine-tool applications. The project was in close collaboration with Siemens AG, Advanced Technologies and extended into a postdoctoral scholarship for investigating easy commissioning of machine tools and auto-tuning. Currently he is actively involved in the Autonomous Situation Awareness for Navigation (ASAN) project and in the ShippingLab project, where he conducts research in the area of autonomous seamanship, supervisory control of autonomous vessels and learning-based ship parameter estimation. In parallel, he pursues research related to the applicability and assessment of advanced control and estimation techniques in drive and motion control applications. Research interests and expertise ControlNonlinear and adaptive controlSliding-mode controlHigh-accuracy tracking in machine toolsStability analysis of interconnected nonlinear systemsFriction compensation in feed drives. EstimationNonlinear observersAdaptive parameter estimationOnline friction and backlash identification Diagnosis and Fault-toleranceWear assessment and prognosisParameter change detectionFault reconstructionControl reconfiguration Discrete-event systemsProcess representation using automata theroyOperation monitoring via observer automata Maritime technologyManoeuvering models identificationSituation awareness for surface vessels autonomyTrajectory planning and collision avoidance