Articles in peer-reviewed journals

  1. Nuber, A. & Moll, J., Millimeterwellen zur strukturellen Überwachung von Rotorblättern von Windenergieanlagen, Technische Sicherheit (Springer-VDI-Verlag), 2018 , Vol. 10 , pp. 39-42, Link
  2. Moll, J. and Simon, J. and Mälzer, M. and Krozer, V. and Pozdniakov, D. and Salman, R. and Dürr, M. and Feulner, M. and Nuber, A. and Friedmann, H., Radar Imaging System for In-Service Wind Turbine Blades Inspections: Initial Results from a Field Installation at a 2MW Wind Turbine, Progress in Electromagnetic Research (PIER), Vol. 162, 2018, pp. 51-60, Link
  3. Arnold, P.; Moll, J.; Mälzer, M.; Krozer, V.; Pozdniakov, D.; Salman, R.; Rediske, S.; Scholz, M.; Friedmann, H. & Nuber, A., Radar-based Structural Health Monitoring of Wind Turbine Blades: The Case of Damage Localization, Wind Energy, 2018, Vol. 21(8), pp. 676-680, Link
  4. Moll, J.; Arnold, P.; Mälzer, M.; Krozer, V.; Pozdniakov, D.; Salman, R.; Rediske, S.; Scholz, M.; Friedmann, H. & Nuber, A. Radar-based Structural Health Monitoring of Wind Turbine Blades: The Case of Damage Detection, Structural Health Monitoring, 2018, Vol.17, No. 4, pp. 815-822, Link
  5. Arnold, P.; Moll, J. & Krozer, V., Design of a Sparse Antenna Array for Radar-based Structural Health Monitoring of Wind Turbine Blades, IET Radar, Sonar & Navigation, Vol. 11, No. 8, 2017, pp. 1259 – 1265, Link
  6. Scholz, N.; Moll, J.; Mälzer, M.; Nagovitsyn, K. & Krozer, V. Random Bounce Algorithm: Real-Time Image Processing for the Detection of Bats and Birds – Algorithm Description with Application Examples from a Laboratory Flight Tunnel and a Field Test at an Onshore Wind Energy Plant Signal, Image and Video Processing, Vol. 10, 2016, pp.1449-1456 Link

Conference papers

  1. Moll, J.; Mälzer, M.; Simon, J.; Krozer, V.; Kramer, C.; Friedmann, H.; Nuber, A.; Salman, R.; Pozdniakov, D. & Dürr, M., Analysis of Changing Environmental and Operational Conditions in a Radar-Based SHM-System for Wind Turbine Blades, 9th European Workshop on Structural Health Monitoring (accepted in February 2018), 2018
  2. Moll, J.; Mälzer, M.; Simon, J.; Krozer, V.; Pozdniakov, D.; Salman, R.; Dürr, M.; Feulner, M.; Friedmann, H.; Nuber, A. & Kramer, C., Multistatic Radar for Continuous Wind Turbine Blades Inspection: Results from a Field Study, 12th European Conference on Antennas and Propagation (accepted in December 2017), 2018
  3. Moll, J.; Salman, R.; Pozdniakov, D.; Nuber, A.; Friedmann, H.; Arnold, P.; Mälzer, M. & Krozer, V. Motion Sensing of a Wind Turbine Prototype Using A Bistatic FMCW Doppler Radar Sensor 11th German Microwave Conference (accepted in December 2017), 2018
  4. Moll, J.; Mälzer, M.; Simon, J.; Krozer, V.; Feulner, M.; Friedmann, H.; Nuber, A.; Salman, R.; Pozdniakov, D. & Dürr, M. Field Demonstration of Radar-based SHM of Wind Turbine Blades at a 2 MW Wind Turbine: Installation, Data Acquisition and Signal Analysis, 11th International Workshop on Structural Health Monitoring (Stanford, USA), 2017, pp. 2491-2497
  5. Moll, J.; Mälzer, M.; Krozer, V.; Pozdniakov, D.; Salman, R.; Beetz, J. & Kössl, M., Activity Monitoring of Bats in a Laboratory Flight Tunnel Using a 24 GHz FMCW Radar System, 11th European Conference on Antennas and Propagation (Paris, France), 2017, pp. 2541-2545
  6. Moll, J.; Krozer, V.; Dürr, M.; Zimmermann, R.; Salman, R.; Hübsch, D.; Friedmann, H.; Nuber, A.; Scholz, M. & Kraemer, P., Radar-based Structural Health Monitoring of Wind Turbine Blades, 19th World Conference on Non-Destructive Testing, 2016, Munich, Germany, pp.1-8, Link
  7. Moll, J.; Mälzer, M.; Scholz, N.; Krozer, V.; Pozdniakov, D.; Salman, R.; Zimmermann, R.; Hechavarria, J.; Beetz, J. & Kössl, M., Radar-based Detection of Bats: Experiments in a Laboratory Flight Tunnel, 10th European Conference on Antennas and Propagation, 2016, pp. 1-4, Link
  8. Moll, J.; Mälzer, M.; Scholz, N.; Krozer, V.; Dürr, M.; Pozdniakov, D.; Salman, R.; Zimmermann, R. & Scholz, M. Radar-based Detection of Birds Near Wind Energy Plants: First Experiences from a Field Study 10th German Microwave Conference, 2016, pp. 239-242, Link
  9. Moll, J. & Krozer, V. Radar-based Mechanical Vibration Sensing for Structural Health Monitoring Applications: A Comparison of Radar Transceiver Measurements at 24GHz and 100GHz, 8th European Workshop on Structural Health Monitoring, 2016, pp. 1-6, Link
  10. Scholz, M.; Rediske, S.; Nuber, A.; Friedmann, H.; Moll, J.; Arnold, P.; Krozer, V.; Kraemer, P.; Salman, R. & Pozdniakov, D. Structural Health Monitoring of Wind Turbine Blades using Radar Technology: First Experiments from a Laboratory Study 8th European Workshop on Structural Health Monitoring, 2016, pp. 1-10, Link

Invited talks

  1. J. Moll, „FMCW Radar System at Millimeter-wave Frequencies for the Detection of Bats at Wind Turbine Installations: Initial Results From a Field Study“, Treffen der deutschen Fledermausforscher, 14.01.2018, Heidesee bei Berlin
  2. J. Moll, „Radarbasierte Detektion von Fledermäusen bei Windenergieanlagen“, Treffen Deutscher Fledermausforscher 2017, Vallendar bei Koblenz, 06.01.2017 bis 08.01.2017
  3. A. Nuber, Specialist Meeting about Electromagnetic Waves and Wind Turbines (EMWT 2016), Fraunhofer FHR, Wachtberg (Germany), 06.12.2016 – 07.12.2016
  4. J. Moll, “Radarbasiertes Structural Health Monitoring bei Rotorblättern von Windenergieanlagen”, DGZfP Fachausschuss MTHz-Verfahren, München, Rohde & Schwarz, 20.10.2016,