Prosjekter
Ekspertise
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Publikasjoner
- Comprehensive Analysis of Bifurcation and Frequency Splitting Phenomena in Inductive Battery Charging Systems
- Multi-Hardware-in-the-Loop Laboratory Testing of Power Converters and Intelligent Electronic Devices for Large-Scale Power System Applications
- Passivity-based Screening to Identify Critical Nodes for Converter Interoperability in Power System
- Robust Choice of Virtual Impedance for Virtual Synchronous Machines Accounting for Grid Impedance Uncertainty
- Coupling Coefficient and Load Estimation for Model Predictive Control of Inductive Power Transfer Systems with Constant Voltage Load
- Dynamic Improvement of Sub-Resonant Frequency Control for Inductive Power Transfer Systems by Coupling Estimation and Sending-Side Gain-Scheduled Control
- Improved Pole Placement and Compaction of MIMO Vector Fitting Applied to System Identification Les publikasjonen
- A Multi-Vessel Universal Shore-to-Ship Charging System: Configuration and Control Architecture
- DC-Voltage Control Design under Saturation Nonlinearity by Using Singular Perturbation Theory
- Polynomial Fitting of Operating Point Dependency in Small-Signal State-Space Models for Power Electronic Converters Les publikasjonen
Annen formidling
- Enhancement of Steady State Response of Indirect Finite Control Set Model Predictive Control
- Fault Detection, Localization and Clearance for MMC based on Indirect Finite Control Set Model Predictive Control
- System Identification of a MIMO Black-box Model Using Vector Fitting (VF)
- Finite-Control-Set Model Predictive Control for Inductive Power Transfer Charging EV systems with Constant Voltage Load
- Finite-Control-Set Model Predictive Control to Suppress Oscillations in Inductive Power Transfer Systems with Constant Voltage Load
- Continuous Control Set Model Predictive Control for Inductive Power Transfer system with Constant Voltage Load
- Control methods for providing virtual inertia from power converters and analysis of operation under unbalanced conditions
- Introduction to the "HVDC Inertia Provision" research project
- Virtual Inertia and Virtual Synchronous Machines – Application to HVDC systems
- Virtual Synchronous Machine-based Control of Voltage Source Converters Under Unbalanced Conditions