Assistant Professor in Energy Informatics

Research on digital twins, cyber-physical systems, and model-based engineering for energy-aware connected systems.

My work focuses on methods and toolchains for understanding and engineering complex technical systems, especially where software, infrastructure, physical processes, and energy flows interact across buildings, energy systems, connected products, and IoT environments.

Institution University of Southern Denmark
Unit Center for Energy Informatics
Base Odense, Denmark

Research Overview

Research at the intersection of energy informatics, digital twins, cyber-physical systems, and model-based engineering.

I develop methods, models, and toolchains for complex technical systems in which software, physical processes, infrastructure, and energy flows interact.

Current work focuses on buildings, energy systems, connected products, and IoT-based environments where resilience, intelligibility, and practical usefulness matter.

Choose Your Path

Three routes through the site for collaborators, students, and curious readers.

For Collaborators

Research profile, publications, and projects.

Start here if you are considering shared scientific work, proposal development, or collaboration around methods and technical infrastructures.

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For Students

Theses, projects, seminars, and supervision.

Go to teaching if you want to understand topic areas, supervision opportunities, and how to get in touch about student work.

See Student Opportunities

For Curious Readers

Background, profile, and research context.

Follow the about page if you want a general introduction to my work, academic background, and current position at SDU.

Read About Me

Research Themes

Main areas of the current research profile.

Energy Informatics

Using data, computation, and systems thinking to improve energy-aware infrastructures and connected technical environments.

Digital Twins

Developing model-linked digital representations for design, monitoring, analysis, adaptation, and digital thread workflows.

Energy Systems

Studying smart grids, buildings, and energy-aware infrastructures as applied domains for systems modeling and analysis.

SysMLv2 and Model-Based Engineering

Creating methods, constraints, and toolchains that make complex systems more analyzable and engineerable.

Security and Cyber-Physical Systems

Exploring how digital twins, runtime analysis, and systems methods support resilience and system security in practice.

AI-Enabled Engineering

Investigating how AI techniques can connect system design, circuit design, semantics, and engineering workflows.

Selected Publications

A few representative publications from the broader research record.

Energy Informatics

Modeling and Simulation of Internet of Things Infrastructures for Cyber-Physical Energy Systems

Dissertation work that connects IoT infrastructures, modeling, and cyber-physical energy systems.

Digital Twins

Generating Digital Twins from SysMLv2 Models

A representative paper for the model-based digital twin direction at the center of the newer research profile.

SysMLv2

Modeling and Analysis of System Models with Constraints in SysMLv2

Highlights the stronger methodological strand around formal analysis and next-generation systems modeling.

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Projects

Applied work across connected systems, infrastructures, and engineering methods.

The projects page gives a better sense of how research questions, methods, and collaborations connect in practice.

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Teaching

Teaching, supervision, and student opportunities.

Students can find thesis topics, project and seminar directions, and guidance on how to reach out for supervision or research-related work.

Student Opportunities