- Collaborate with multidisciplinary teams to develop innovative solutions and technologies for complex challenges in energy systems and power grid domains.
- Present research findings through seminars, journal articles, technical reports, and at conferences and workshops.
- Contribute to open-source software development initiatives for Department of Energy projects.
- Ph.D. in Electrical Engineering, Computer Science, Operations Research, or a related field.
- Demonstrated expertise in control and optimization techniques, cybersecurity measures for power systems, machine learning applications in energy settings, and a comprehensive understanding of power distribution systems.
- Working knowledge of electric power distribution systems, DER operations, and grid modeling and simulation.
- Proficiency in Python and OpenDSS.
- Familiarity in scripting using at least one ML framework (Keras, TensorFlow, PyTorch, or scikit-learn) and data engineering package (e.g. pandas).
- Solid foundation in mathematics/statistics with experience in cyber-physical systems modeling and analysis.
- Ability to work both independently and collaboratively in a team environment.
- Demonstrated experience in interdisciplinary research.
- Proven problem-solving and analytical skills.
- Strong communication skills, both oral and written.
- Record of publications in high-impact journals and experience in proposal development.
- A successful candidate must have the ability to model Argonne's Core Values: Impact, Safety, Respect, Integrity, and Teamwork.
- Develop optimization and control tools for power distribution systems and test them on real-time hardware in the loop grid simulators.
- Work with transmission and distribution grid simulation software such as OpenDSS, MATPOWER, PSS/E etc to run simulations and collect simulation data.
- Develop data pipelines that can collect historical and simulation data for use with ML model training.
- Develop and implement machine learning algorithms for applications such as real-time data fusion, anomaly detection, and control in microgrids.
- Perform exploratory data analysis and generate analytics from power grid measurements.
- Design and implement game theory and reinforcement learning-based solutions for power grid control problems or cybersecurity applications.
- Familiarity with power system analysis software such as MATPOWER, PSS/E, OpenDSS or similar.
- Experience in developing ML solutions using reinforcement learning and/or advanced deep learning architectures.
- Familiarity with federated learning, and game theoretic modeling.
- Experience or familiarity with hardware-in-the-loop is helpful but not required.
- A detailed CV
- A cover letter describing your research experience and interests.
- GitHub profile (if available)
Postdoctoral Appointee – Machine Learning for Power Systems - Lemont, United States - Argonne National Laboratory
Description
The Advanced Grid Modeling group at Argonne National Laboratory's Center for Energy, Environmental, and Economic Systems Analysis is looking for a dedicated Postdoctoral Researcher. This role is ideal for someone passionate about solving challenges on the future power grid advancing the integration of distributed energy resources (DER) and renewable energy. The selected candidate will be involved in modeling, analysis and control of electric power distribution and transmission system, applying state of the art machine learning (ML) and deep learning algorithms to develop cybersecurity, optimization, and control solutions for grid applications.
Position Requirements
Candidates will be required to work in at least 3 of the following areas:
Preferred Qualifications:
Application Procedure:
Interested candidates should submit:
Job Family
Postdoctoral FamilyJob Profile
Postdoctoral AppointeeWorker Type
Long-Term (Fixed Term)Time Type
Full time