DAKHILI, K., KEBIG, T., SCHÄFER, M., MAAS, S., Bender, M., & Zürbes, A. (2023). Temperature effect on static and quasi-static bridge measurements. In Life-Cycle of Structures and Infrastructure Systems. doi:10.1201/9781003323020-387 Peer reviewed |
KEBIG, T., DAKHILI, K., NGUYEN, V. H., Bender, M., Zürbes, A., & MAAS, S. (2021). Verringerung des Temperatureinflusses bei der Überwachung von Brücken am Beispiel von Messdaten aus Luxemburg [Paper presentation]. 2. Wiener Dynamik Tage, Vienna, Austria. doi:10.1553/0x003cd358 |
KEBIG, T., NGUYEN, V. H., Bender, M., SCHÄFER, M., & MAAS, S. (2021). Repeatability and precision of different static deflection measurements on a real bridge-part under outdoor conditions in view of damage detection. In A. Cunha & E. Caetano (Eds.), Proceedings of the 10th International Conference on Structural Health Monitoring of Intelligent Infrastructure, SHMII 10. Peer reviewed |
KEBIG, T. (2021). REFERENCE MEASUREMENTS AND SIMULATIONS OF STATIC AND DYNAMIC CHARACTERISTICS OF PRESTRESSED CONCRETE BRIDGES UNDER OUTDOOR CONDITIONS FOR STRUCTURAL HEALTH MONITORING [Doctoral thesis, Unilu - University of Luxembourg]. ORBilu-University of Luxembourg. https://orbilu.uni.lu/handle/10993/49131 |
Nguyen, V. H., KEBIG, T., Golinval, J.-C., & MAAS, S. (2020). Reduction of temperature effects for bridge health monitoring. Eccomas Proceedia. doi:10.47964/1120.9096.19343 Peer reviewed |
MAAS, S., NGUYEN, V. H., & KEBIG, T. (2020). Neuere Methoden zur Identifikation und Lokalisierung von Schäden an vorgespannten Betonbrücken. In M. Bischoff, M. von Scheven, ... B. Oesterle, Baustatik-Baupraxis 14 (pp. 537-543). Peer reviewed |
MAAS, S., NGUYEN, V. H., KEBIG, T., SCHOMMER, S., & Zürber, A. (March 2019). Comparison of different excitationand data sampling-methods in structural health monitoring. Civil Engineering Design, 1, 10-16. doi:10.1002/cend.201800002 Peer reviewed |
SCHOMMER, S., KEBIG, T., NGUYEN, V. H., Zürbes, A., & MAAS, S. (2018). Modeling of a prestressed concrete bridge with 3D finite elements for structural health monitoring using model updating techniques. In ISMA2018 International Conference on Noise and Vibration Engineering. |