[{"doi":"10.1088/1367-2630/ad9f98","title":"Ultra-broadband non-degenerate guided-wave bi-photon source in the near and mid-infrared","author":[{"first_name":"Franz","full_name":"Roeder, Franz","id":"88149","last_name":"Roeder"},{"last_name":"Gnanavel","full_name":"Gnanavel, Abira","first_name":"Abira"},{"first_name":"René","last_name":"Pollmann","id":"78890","full_name":"Pollmann, René"},{"last_name":"Brecht","full_name":"Brecht, Olga","first_name":"Olga"},{"first_name":"Michael","last_name":"Stefszky","full_name":"Stefszky, Michael","id":"42777"},{"last_name":"Padberg","full_name":"Padberg, Laura","id":"40300","first_name":"Laura"},{"first_name":"Christof","orcid":"https://orcid.org/0000-0002-5693-3083","last_name":"Eigner","full_name":"Eigner, Christof","id":"13244"},{"first_name":"Christine","id":"26263","full_name":"Silberhorn, Christine","last_name":"Silberhorn"},{"id":"27150","full_name":"Brecht, Benjamin","last_name":"Brecht","orcid":"0000-0003-4140-0556 ","first_name":"Benjamin"}],"date_created":"2024-12-27T19:01:14Z","volume":26,"publisher":"IOP Publishing","date_updated":"2025-12-19T11:36:36Z","citation":{"ama":"Roeder F, Gnanavel A, Pollmann R, et al. Ultra-broadband non-degenerate guided-wave bi-photon source in the near and mid-infrared. New Journal of Physics. 2024;26(12). doi:10.1088/1367-2630/ad9f98","ieee":"F. Roeder et al., “Ultra-broadband non-degenerate guided-wave bi-photon source in the near and mid-infrared,” New Journal of Physics, vol. 26, no. 12, Art. no. 123025, 2024, doi: 10.1088/1367-2630/ad9f98.","chicago":"Roeder, Franz, Abira Gnanavel, René Pollmann, Olga Brecht, Michael Stefszky, Laura Padberg, Christof Eigner, Christine Silberhorn, and Benjamin Brecht. “Ultra-Broadband Non-Degenerate Guided-Wave Bi-Photon Source in the near and Mid-Infrared.” New Journal of Physics 26, no. 12 (2024). https://doi.org/10.1088/1367-2630/ad9f98.","apa":"Roeder, F., Gnanavel, A., Pollmann, R., Brecht, O., Stefszky, M., Padberg, L., Eigner, C., Silberhorn, C., & Brecht, B. (2024). Ultra-broadband non-degenerate guided-wave bi-photon source in the near and mid-infrared. New Journal of Physics, 26(12), Article 123025. https://doi.org/10.1088/1367-2630/ad9f98","bibtex":"@article{Roeder_Gnanavel_Pollmann_Brecht_Stefszky_Padberg_Eigner_Silberhorn_Brecht_2024, title={Ultra-broadband non-degenerate guided-wave bi-photon source in the near and mid-infrared}, volume={26}, DOI={10.1088/1367-2630/ad9f98}, number={12123025}, journal={New Journal of Physics}, publisher={IOP Publishing}, author={Roeder, Franz and Gnanavel, Abira and Pollmann, René and Brecht, Olga and Stefszky, Michael and Padberg, Laura and Eigner, Christof and Silberhorn, Christine and Brecht, Benjamin}, year={2024} }","short":"F. Roeder, A. Gnanavel, R. Pollmann, O. Brecht, M. Stefszky, L. Padberg, C. Eigner, C. Silberhorn, B. Brecht, New Journal of Physics 26 (2024).","mla":"Roeder, Franz, et al. “Ultra-Broadband Non-Degenerate Guided-Wave Bi-Photon Source in the near and Mid-Infrared.” New Journal of Physics, vol. 26, no. 12, 123025, IOP Publishing, 2024, doi:10.1088/1367-2630/ad9f98."},"intvolume":" 26","year":"2024","issue":"12","publication_status":"published","publication_identifier":{"issn":["1367-2630"]},"language":[{"iso":"eng"}],"article_type":"original","article_number":"123025","user_id":"78890","department":[{"_id":"288"},{"_id":"623"},{"_id":"15"}],"project":[{"_id":"571","name":"MIRAQLS: MIRAQLS: Mid-infrared Quantum Technology for Sensing"},{"name":"E2TPA: Exploiting Entangled Two-Photon Absorption","_id":"190"}],"_id":"57862","status":"public","abstract":[{"text":"The latest applications in ultrafast quantum metrology require bright, broadband bi-photon sources with one of the photons in the mid-infrared and the other in the visible to near infrared. However, existing sources based on bulk crystals are limited in brightness due to the short interaction length and only allow for limited dispersion engineering. Here, we present an integrated PDC source based on a Ti:LiNbO3 waveguide that generates broadband bi-photons with central wavelengths at 860 nm and 2800 nm. Their spectral bandwidth exceeds 25 THz and is achieved by simultaneous matching of the group velocities (GVs) and cancellation of GV dispersion for the signal and idler field. We provide an intuitive understanding of the process by studying our source’s behavior at different temperatures and pump wavelengths, which agrees well with simulations.","lang":"eng"}],"type":"journal_article","publication":"New Journal of Physics"},{"type":"journal_article","status":"public","_id":"63346","department":[{"_id":"156"}],"user_id":"7888","publication_identifier":{"issn":["1464-4207","2041-3076"]},"publication_status":"published","page":"2299-2306","intvolume":" 238","citation":{"chicago":"Borgert, Thomas, D Köhler, Eugen Wiens, R Kupfer, J Troschitz, Werner Homberg, and M Gude. “In-Situ Computed Tomography Analysis of the Failure Mechanisms of Thermomechanically Manufactured Joints with Auxiliary Joining Element.” Proceedings of the Institution of Mechanical Engineers, Part L: Journal of Materials: Design and Applications 238, no. 12 (2024): 2299–2306. https://doi.org/10.1177/14644207241232233.","ieee":"T. Borgert et al., “In-situ computed tomography analysis of the failure mechanisms of thermomechanically manufactured joints with auxiliary joining element,” Proceedings of the Institution of Mechanical Engineers, Part L: Journal of Materials: Design and Applications, vol. 238, no. 12, pp. 2299–2306, 2024, doi: 10.1177/14644207241232233.","ama":"Borgert T, Köhler D, Wiens E, et al. In-situ computed tomography analysis of the failure mechanisms of thermomechanically manufactured joints with auxiliary joining element. Proceedings of the Institution of Mechanical Engineers, Part L: Journal of Materials: Design and Applications. 2024;238(12):2299-2306. doi:10.1177/14644207241232233","short":"T. Borgert, D. Köhler, E. Wiens, R. Kupfer, J. Troschitz, W. Homberg, M. Gude, Proceedings of the Institution of Mechanical Engineers, Part L: Journal of Materials: Design and Applications 238 (2024) 2299–2306.","mla":"Borgert, Thomas, et al. “In-Situ Computed Tomography Analysis of the Failure Mechanisms of Thermomechanically Manufactured Joints with Auxiliary Joining Element.” Proceedings of the Institution of Mechanical Engineers, Part L: Journal of Materials: Design and Applications, vol. 238, no. 12, SAGE Publications, 2024, pp. 2299–306, doi:10.1177/14644207241232233.","bibtex":"@article{Borgert_Köhler_Wiens_Kupfer_Troschitz_Homberg_Gude_2024, title={In-situ computed tomography analysis of the failure mechanisms of thermomechanically manufactured joints with auxiliary joining element}, volume={238}, DOI={10.1177/14644207241232233}, number={12}, journal={Proceedings of the Institution of Mechanical Engineers, Part L: Journal of Materials: Design and Applications}, publisher={SAGE Publications}, author={Borgert, Thomas and Köhler, D and Wiens, Eugen and Kupfer, R and Troschitz, J and Homberg, Werner and Gude, M}, year={2024}, pages={2299–2306} }","apa":"Borgert, T., Köhler, D., Wiens, E., Kupfer, R., Troschitz, J., Homberg, W., & Gude, M. (2024). In-situ computed tomography analysis of the failure mechanisms of thermomechanically manufactured joints with auxiliary joining element. Proceedings of the Institution of Mechanical Engineers, Part L: Journal of Materials: Design and Applications, 238(12), 2299–2306. https://doi.org/10.1177/14644207241232233"},"date_updated":"2025-12-22T10:40:28Z","volume":238,"author":[{"first_name":"Thomas","last_name":"Borgert","id":"83141","full_name":"Borgert, Thomas"},{"last_name":"Köhler","full_name":"Köhler, D","first_name":"D"},{"first_name":"Eugen","full_name":"Wiens, Eugen","id":"7888","last_name":"Wiens"},{"last_name":"Kupfer","full_name":"Kupfer, R","first_name":"R"},{"first_name":"J","full_name":"Troschitz, J","last_name":"Troschitz"},{"first_name":"Werner","last_name":"Homberg","full_name":"Homberg, Werner","id":"233"},{"first_name":"M","full_name":"Gude, M","last_name":"Gude"}],"doi":"10.1177/14644207241232233","publication":"Proceedings of the Institution of Mechanical Engineers, Part L: Journal of Materials: Design and Applications","abstract":[{"text":" Lightweight design by using low-density and load-adapted materials can reduce the weight of vehicles and the emissions generated during operation. However, the usage of different materials requires innovative joining technologies with increased versatility. In this investigation, the focus is on describing and characterising the failure behaviour of connections manufactured by an innovative thermomechanical joining process with adaptable auxiliary joining elements in single-lap tensile-shear tests. In order to analyse the failure development in detail, the specimens are investigated using in-situ computed tomography (in-situ CT). Here, the tensile-shear test is interrupted at points of interest and CT scans are conducted under load. In addition, the interrupted in-situ testing procedure is validated by comparing the loading behaviour with conventional continuous tensile-shear tests. The results of the in-situ investigations of joints with varying material combinations clearly describe the cause of failure, allowing conclusions towards an improved joint design. ","lang":"eng"}],"language":[{"iso":"eng"}],"quality_controlled":"1","issue":"12","year":"2024","publisher":"SAGE Publications","date_created":"2025-12-19T09:13:30Z","title":"In-situ computed tomography analysis of the failure mechanisms of thermomechanically manufactured joints with auxiliary joining element"},{"file_date_updated":"2024-05-02T14:07:24Z","project":[{"_id":"245","name":"FOR 5208: Modellbasierte Bestimmung nichtlinearer Eigenschaften von Piezokeramiken für Leistungsschallanwendungen (NEPTUN)"}],"_id":"53822","user_id":"11829","status":"public","type":"conference","conference":{"name":"DAGA 2024 - 50. JAHRESTAGUNG FÜR AKUSTIK","start_date":"2024-03-18","end_date":"2024-03-21","location":"Hannover"},"date_updated":"2026-01-05T07:56:21Z","oa":"1","author":[{"id":"44026","full_name":"Friesen, Olga","last_name":"Friesen","first_name":"Olga"},{"full_name":"Pasha, Muhammad Ahsan","last_name":"Pasha","first_name":"Muhammad Ahsan"},{"last_name":"Schwengelbeck","full_name":"Schwengelbeck, Max","first_name":"Max"},{"orcid":"0000-0002-4393-268X","last_name":"Claes","full_name":"Claes, Leander","id":"11829","first_name":"Leander"},{"first_name":"Elmar","last_name":"Baumhögger","id":"15164","full_name":"Baumhögger, Elmar"},{"first_name":"Bernd","last_name":"Henning","full_name":"Henning, Bernd","id":"213"}],"citation":{"apa":"Friesen, O., Pasha, M. A., Schwengelbeck, M., Claes, L., Baumhögger, E., & Henning, B. (2024). Untersuchung piezoelektrischer Materialeigenschaften unter hydrostatischer Last. Fortschritte der Akustik - DAGA 2024, 1117–1120.","short":"O. Friesen, M.A. Pasha, M. Schwengelbeck, L. Claes, E. Baumhögger, B. Henning, in: Fortschritte der Akustik - DAGA 2024, 2024, pp. 1117–1120.","bibtex":"@inproceedings{Friesen_Pasha_Schwengelbeck_Claes_Baumhögger_Henning_2024, title={Untersuchung piezoelektrischer Materialeigenschaften unter hydrostatischer Last}, booktitle={Fortschritte der Akustik - DAGA 2024}, author={Friesen, Olga and Pasha, Muhammad Ahsan and Schwengelbeck, Max and Claes, Leander and Baumhögger, Elmar and Henning, Bernd}, year={2024}, pages={1117–1120} }","mla":"Friesen, Olga, et al. “Untersuchung piezoelektrischer Materialeigenschaften unter hydrostatischer Last.” Fortschritte der Akustik - DAGA 2024, 2024, pp. 1117–1120.","ieee":"O. Friesen, M. A. Pasha, M. Schwengelbeck, L. Claes, E. Baumhögger, and B. Henning, “Untersuchung piezoelektrischer Materialeigenschaften unter hydrostatischer Last,” in Fortschritte der Akustik - DAGA 2024, Hannover, 2024, pp. 1117–1120.","chicago":"Friesen, Olga, Muhammad Ahsan Pasha, Max Schwengelbeck, Leander Claes, Elmar Baumhögger, and Bernd Henning. “Untersuchung piezoelektrischer Materialeigenschaften unter hydrostatischer Last.” In Fortschritte der Akustik - DAGA 2024, 1117–1120, 2024.","ama":"Friesen O, Pasha MA, Schwengelbeck M, Claes L, Baumhögger E, Henning B. Untersuchung piezoelektrischer Materialeigenschaften unter hydrostatischer Last. In: Fortschritte der Akustik - DAGA 2024. ; 2024:1117–1120."},"page":"1117–1120","publication_status":"published","has_accepted_license":"1","ddc":["620"],"language":[{"iso":"ger"}],"abstract":[{"lang":"ger","text":"Piezoelektrische Keramiken finden sowohl in Sensoren als auch in Aktoren Anwendung. Bei Hochleistungs-Ultraschallanwendungen sind diese Komponenten erheblichen elektrischen und mechanischen Belastungen ausgesetzt, was zum Auftreten nichtlinearer Effekte führt. Um das nichtlineare Materialverhalten piezoelektrischer Keramiken zu charakterisieren, kann eine statische mechanische Last aufgebracht werden, die den mechanischen Arbeitspunkt verschiebt. Durch Variation dieser statischen mechanischen Belastung kann das lineare Verhalten in jedem Betriebspunkt charakterisiert werden, woraufhin die nichtlinearen Eigenschaften des Materials angenähert werden können. Allerdings ist die Sicherstellung einer homogenen mechanischen Last anspruchsvoll. Alternativ kann eine hydrostatische Belastung realisiert werden, indem die Probe in einen Behälter gegeben wird, der mit unter Druck stehendem Fluid gefüllt ist. Dadurch wird eine gleichmäßige Lastverteilung über die Oberfläche der Probe erreicht.\r\n\r\nIn diesem Beitrag wird ein Versuchsaufbau zur Durchführung elektrischer Impedanzmessungen an piezoelektrischen Keramiken in einem Druckbehälter vorgestellt. Die Probe wird im Inneren des Druckbehälters elektrisch kontaktiert. Unter Verwendung von unter Druck stehendem Argon wird auf diese Weise die Messung der elektrischen Impedanz unter hydrostatischer Last von bis zu 200 bar ermöglicht. Anschließend wird ein inverses Verfahren angewendet, um die Materialparameter in Abhängigkeit von der aufgebrachten Last zu ermitteln."}],"file":[{"access_level":"open_access","file_id":"53826","file_name":"daga2024friesen.pdf","file_size":453108,"date_created":"2024-05-02T13:38:37Z","creator":"ofriesen","date_updated":"2024-05-02T14:07:24Z","relation":"main_file","content_type":"application/pdf"}],"publication":"Fortschritte der Akustik - DAGA 2024","title":"Untersuchung piezoelektrischer Materialeigenschaften unter hydrostatischer Last","date_created":"2024-05-02T13:25:29Z","year":"2024"},{"file_date_updated":"2024-05-02T14:06:28Z","language":[{"iso":"ger"}],"ddc":["620"],"department":[{"_id":"49"}],"user_id":"11829","_id":"53824","project":[{"name":"ChaMP: Ein modellbasiertes Messverfahren zur Charakterisierung der frequenzabhängigen Materialeigenschaften von Piezokeramiken unter Verwendung eines einzelnen Probekörperindividuums","_id":"90"},{"_id":"52","name":"PC2: Computing Resources Provided by the Paderborn Center for Parallel Computing"},{"_id":"245","name":"FOR 5208: Modellbasierte Bestimmung nichtlinearer Eigenschaften von Piezokeramiken für Leistungsschallanwendungen (NEPTUN)"}],"status":"public","file":[{"date_updated":"2024-05-02T14:06:28Z","creator":"leanderc","date_created":"2024-05-02T13:36:51Z","file_size":365911,"file_name":"daga2024koch.pdf","file_id":"53825","access_level":"open_access","content_type":"application/pdf","relation":"main_file"}],"editor":[{"full_name":"Gesellschaft für Akustik e.V., Deutsche ","last_name":"Gesellschaft für Akustik e.V.","first_name":"Deutsche "}],"publication":"Fortschritte der Akustik - DAGA 2024","type":"conference","conference":{"start_date":"2024-03-18","end_date":"2024-03-21"},"title":"Inverses Verfahren zur Identifikation piezoelektrischer Materialparameter unterstützt durch neuronale Netze","date_created":"2024-05-02T13:34:01Z","author":[{"last_name":"Koch","full_name":"Koch, Kevin","first_name":"Kevin"},{"first_name":"Leander","full_name":"Claes, Leander","id":"11829","orcid":"0000-0002-4393-268X","last_name":"Claes"},{"first_name":"Benjamin","full_name":"Jurgelucks, Benjamin","last_name":"Jurgelucks"},{"last_name":"Meihost","full_name":"Meihost, Lars","id":"24769","first_name":"Lars"},{"first_name":"Bernd","last_name":"Henning","id":"213","full_name":"Henning, Bernd"}],"oa":"1","date_updated":"2026-01-05T07:56:42Z","page":"1113–1116","citation":{"apa":"Koch, K., Claes, L., Jurgelucks, B., Meihost, L., & Henning, B. (2024). Inverses Verfahren zur Identifikation piezoelektrischer Materialparameter unterstützt durch neuronale Netze. In D. Gesellschaft für Akustik e.V. (Ed.), Fortschritte der Akustik - DAGA 2024 (pp. 1113–1116).","short":"K. Koch, L. Claes, B. Jurgelucks, L. Meihost, B. Henning, in: D. Gesellschaft für Akustik e.V. (Ed.), Fortschritte der Akustik - DAGA 2024, 2024, pp. 1113–1116.","mla":"Koch, Kevin, et al. “Inverses Verfahren zur Identifikation piezoelektrischer Materialparameter unterstützt durch neuronale Netze.” Fortschritte der Akustik - DAGA 2024, edited by Deutsche Gesellschaft für Akustik e.V., 2024, pp. 1113–1116.","bibtex":"@inproceedings{Koch_Claes_Jurgelucks_Meihost_Henning_2024, title={Inverses Verfahren zur Identifikation piezoelektrischer Materialparameter unterstützt durch neuronale Netze}, booktitle={Fortschritte der Akustik - DAGA 2024}, author={Koch, Kevin and Claes, Leander and Jurgelucks, Benjamin and Meihost, Lars and Henning, Bernd}, editor={Gesellschaft für Akustik e.V., Deutsche }, year={2024}, pages={1113–1116} }","ama":"Koch K, Claes L, Jurgelucks B, Meihost L, Henning B. Inverses Verfahren zur Identifikation piezoelektrischer Materialparameter unterstützt durch neuronale Netze. In: Gesellschaft für Akustik e.V. D, ed. Fortschritte der Akustik - DAGA 2024. ; 2024:1113–1116.","chicago":"Koch, Kevin, Leander Claes, Benjamin Jurgelucks, Lars Meihost, and Bernd Henning. “Inverses Verfahren zur Identifikation piezoelektrischer Materialparameter unterstützt durch neuronale Netze.” In Fortschritte der Akustik - DAGA 2024, edited by Deutsche Gesellschaft für Akustik e.V., 1113–1116, 2024.","ieee":"K. Koch, L. Claes, B. Jurgelucks, L. Meihost, and B. Henning, “Inverses Verfahren zur Identifikation piezoelektrischer Materialparameter unterstützt durch neuronale Netze,” in Fortschritte der Akustik - DAGA 2024, 2024, pp. 1113–1116."},"year":"2024","has_accepted_license":"1"},{"volume":2822,"author":[{"last_name":"Friesen","full_name":"Friesen, Olga","id":"44026","first_name":"Olga"},{"first_name":"Leander","id":"11829","full_name":"Claes, Leander","last_name":"Claes","orcid":"0000-0002-4393-268X"},{"last_name":"Scheidemann","id":"38259","full_name":"Scheidemann, Claus","first_name":"Claus"},{"id":"23082","full_name":"Feldmann, Nadine","last_name":"Feldmann","first_name":"Nadine"},{"full_name":"Hemsel, Tobias","id":"210","last_name":"Hemsel","first_name":"Tobias"},{"first_name":"Bernd","last_name":"Henning","full_name":"Henning, Bernd","id":"213"}],"date_created":"2024-10-31T07:59:01Z","publisher":"IOP Publishing","oa":"1","date_updated":"2026-01-05T07:58:55Z","doi":"10.1088/1742-6596/2822/1/012125","main_file_link":[{"open_access":"1","url":"https://iopscience.iop.org/article/10.1088/1742-6596/2822/1/012125"}],"title":"Estimation of temperature-dependent piezoelectric material parameters using ring-shaped specimens","publication_identifier":{"issn":["1742-6596"]},"page":"012125","intvolume":" 2822","citation":{"chicago":"Friesen, Olga, Leander Claes, Claus Scheidemann, Nadine Feldmann, Tobias Hemsel, and Bernd Henning. “Estimation of Temperature-Dependent Piezoelectric Material Parameters Using Ring-Shaped Specimens.” In 2023 International Congress on Ultrasonics, Beijing, China, 2822:012125. IOP Publishing, 2024. https://doi.org/10.1088/1742-6596/2822/1/012125.","ieee":"O. Friesen, L. Claes, C. Scheidemann, N. Feldmann, T. Hemsel, and B. Henning, “Estimation of temperature-dependent piezoelectric material parameters using ring-shaped specimens,” in 2023 International Congress on Ultrasonics, Beijing, China, 2024, vol. 2822, p. 012125, doi: 10.1088/1742-6596/2822/1/012125.","ama":"Friesen O, Claes L, Scheidemann C, Feldmann N, Hemsel T, Henning B. Estimation of temperature-dependent piezoelectric material parameters using ring-shaped specimens. In: 2023 International Congress on Ultrasonics, Beijing, China. Vol 2822. IOP Publishing; 2024:012125. doi:10.1088/1742-6596/2822/1/012125","bibtex":"@inproceedings{Friesen_Claes_Scheidemann_Feldmann_Hemsel_Henning_2024, title={Estimation of temperature-dependent piezoelectric material parameters using ring-shaped specimens}, volume={2822}, DOI={10.1088/1742-6596/2822/1/012125}, booktitle={2023 International Congress on Ultrasonics, Beijing, China}, publisher={IOP Publishing}, author={Friesen, Olga and Claes, Leander and Scheidemann, Claus and Feldmann, Nadine and Hemsel, Tobias and Henning, Bernd}, year={2024}, pages={012125} }","mla":"Friesen, Olga, et al. “Estimation of Temperature-Dependent Piezoelectric Material Parameters Using Ring-Shaped Specimens.” 2023 International Congress on Ultrasonics, Beijing, China, vol. 2822, IOP Publishing, 2024, p. 012125, doi:10.1088/1742-6596/2822/1/012125.","short":"O. Friesen, L. Claes, C. Scheidemann, N. Feldmann, T. Hemsel, B. Henning, in: 2023 International Congress on Ultrasonics, Beijing, China, IOP Publishing, 2024, p. 012125.","apa":"Friesen, O., Claes, L., Scheidemann, C., Feldmann, N., Hemsel, T., & Henning, B. (2024). Estimation of temperature-dependent piezoelectric material parameters using ring-shaped specimens. 2023 International Congress on Ultrasonics, Beijing, China, 2822, 012125. https://doi.org/10.1088/1742-6596/2822/1/012125"},"year":"2024","department":[{"_id":"49"}],"user_id":"11829","_id":"56834","project":[{"name":"FOR 5208: Modellbasierte Bestimmung nichtlinearer Eigenschaften von Piezokeramiken für Leistungsschallanwendungen (NEPTUN)","_id":"245"}],"language":[{"iso":"eng"}],"publication":"2023 International Congress on Ultrasonics, Beijing, China","type":"conference","status":"public"},{"department":[{"_id":"49"}],"user_id":"11829","_id":"55470","project":[{"name":"ChaMP: Ein modellbasiertes Messverfahren zur Charakterisierung der frequenzabhängigen Materialeigenschaften von Piezokeramiken unter Verwendung eines einzelnen Probekörperindividuums","_id":"90"},{"_id":"52","name":"PC2: Computing Resources Provided by the Paderborn Center for Parallel Computing"},{"name":"FOR 5208: Modellbasierte Bestimmung nichtlinearer Eigenschaften von Piezokeramiken für Leistungsschallanwendungen (NEPTUN)","_id":"245"}],"status":"public","type":"research_data","doi":"10.5281/zenodo.13143680","title":"Randomised material parameter impedance dataset of piezoelectric rings","date_created":"2024-07-31T14:10:12Z","author":[{"last_name":"Koch","full_name":"Koch, Kevin","first_name":"Kevin"},{"last_name":"Friesen","full_name":"Friesen, Olga","id":"44026","first_name":"Olga"},{"first_name":"Leander","id":"11829","full_name":"Claes, Leander","last_name":"Claes","orcid":"0000-0002-4393-268X"}],"publisher":"Zenodo","date_updated":"2026-01-05T07:57:46Z","citation":{"ama":"Koch K, Friesen O, Claes L. Randomised Material Parameter Impedance Dataset of Piezoelectric Rings. Zenodo; 2024. doi:10.5281/zenodo.13143680","chicago":"Koch, Kevin, Olga Friesen, and Leander Claes. Randomised Material Parameter Impedance Dataset of Piezoelectric Rings. Zenodo, 2024. https://doi.org/10.5281/zenodo.13143680.","ieee":"K. Koch, O. Friesen, and L. Claes, Randomised material parameter impedance dataset of piezoelectric rings. Zenodo, 2024.","apa":"Koch, K., Friesen, O., & Claes, L. (2024). Randomised material parameter impedance dataset of piezoelectric rings. Zenodo. https://doi.org/10.5281/zenodo.13143680","short":"K. Koch, O. Friesen, L. Claes, Randomised Material Parameter Impedance Dataset of Piezoelectric Rings, Zenodo, 2024.","bibtex":"@book{Koch_Friesen_Claes_2024, title={Randomised material parameter impedance dataset of piezoelectric rings}, DOI={10.5281/zenodo.13143680}, publisher={Zenodo}, author={Koch, Kevin and Friesen, Olga and Claes, Leander}, year={2024} }","mla":"Koch, Kevin, et al. Randomised Material Parameter Impedance Dataset of Piezoelectric Rings. Zenodo, 2024, doi:10.5281/zenodo.13143680."},"year":"2024"},{"year":"2024","citation":{"apa":"Koch, K., & Claes, L. (2024). Randomised material parameter piezoelectric impedance dataset with structured electrodes. zenodo. https://doi.org/10.5281/ZENODO.11064206","bibtex":"@book{Koch_Claes_2024, title={Randomised material parameter piezoelectric impedance dataset with structured electrodes}, DOI={10.5281/ZENODO.11064206}, publisher={zenodo}, author={Koch, Kevin and Claes, Leander}, year={2024} }","short":"K. Koch, L. Claes, Randomised Material Parameter Piezoelectric Impedance Dataset with Structured Electrodes, zenodo, 2024.","mla":"Koch, Kevin, and Leander Claes. Randomised Material Parameter Piezoelectric Impedance Dataset with Structured Electrodes. zenodo, 2024, doi:10.5281/ZENODO.11064206.","ama":"Koch K, Claes L. Randomised Material Parameter Piezoelectric Impedance Dataset with Structured Electrodes. zenodo; 2024. doi:10.5281/ZENODO.11064206","chicago":"Koch, Kevin, and Leander Claes. Randomised Material Parameter Piezoelectric Impedance Dataset with Structured Electrodes. zenodo, 2024. https://doi.org/10.5281/ZENODO.11064206.","ieee":"K. Koch and L. Claes, Randomised material parameter piezoelectric impedance dataset with structured electrodes. zenodo, 2024."},"date_updated":"2026-01-05T07:56:58Z","publisher":"zenodo","date_created":"2024-04-25T13:54:49Z","author":[{"first_name":"Kevin","last_name":"Koch","full_name":"Koch, Kevin"},{"id":"11829","full_name":"Claes, Leander","last_name":"Claes","orcid":"0000-0002-4393-268X","first_name":"Leander"}],"title":"Randomised material parameter piezoelectric impedance dataset with structured electrodes","doi":"10.5281/ZENODO.11064206","type":"research_data","status":"public","project":[{"_id":"90","name":"ChaMP: Ein modellbasiertes Messverfahren zur Charakterisierung der frequenzabhängigen Materialeigenschaften von Piezokeramiken unter Verwendung eines einzelnen Probekörperindividuums"},{"_id":"52","name":"PC2: Computing Resources Provided by the Paderborn Center for Parallel Computing"},{"_id":"245","name":"FOR 5208: Modellbasierte Bestimmung nichtlinearer Eigenschaften von Piezokeramiken für Leistungsschallanwendungen (NEPTUN)"}],"_id":"53662","user_id":"11829","department":[{"_id":"49"}]},{"title":"Machine learning in inverse measurement problems: An application to piezoelectric material characterisation","date_updated":"2026-01-05T07:57:27Z","author":[{"last_name":"Claes","orcid":"0000-0002-4393-268X","full_name":"Claes, Leander","id":"11829","first_name":"Leander"},{"last_name":"Koch","full_name":"Koch, Kevin","first_name":"Kevin"},{"first_name":"Olga","last_name":"Friesen","id":"44026","full_name":"Friesen, Olga"},{"full_name":"Meihost, Lars","id":"24769","last_name":"Meihost","first_name":"Lars"}],"date_created":"2024-07-29T12:34:21Z","year":"2024","place":"International Workshop on Piezoelectric Materials and Applications (IWPMA)","citation":{"mla":"Claes, Leander, et al. Machine Learning in Inverse Measurement Problems: An Application to Piezoelectric Material Characterisation. 2024.","short":"L. Claes, K. Koch, O. Friesen, L. Meihost, Machine Learning in Inverse Measurement Problems: An Application to Piezoelectric Material Characterisation, International Workshop on Piezoelectric Materials and Applications (IWPMA), 2024.","bibtex":"@book{Claes_Koch_Friesen_Meihost_2024, place={International Workshop on Piezoelectric Materials and Applications (IWPMA)}, title={Machine learning in inverse measurement problems: An application to piezoelectric material characterisation}, author={Claes, Leander and Koch, Kevin and Friesen, Olga and Meihost, Lars}, year={2024} }","apa":"Claes, L., Koch, K., Friesen, O., & Meihost, L. (2024). Machine learning in inverse measurement problems: An application to piezoelectric material characterisation.","chicago":"Claes, Leander, Kevin Koch, Olga Friesen, and Lars Meihost. Machine Learning in Inverse Measurement Problems: An Application to Piezoelectric Material Characterisation. International Workshop on Piezoelectric Materials and Applications (IWPMA), 2024.","ieee":"L. Claes, K. Koch, O. Friesen, and L. Meihost, Machine learning in inverse measurement problems: An application to piezoelectric material characterisation. International Workshop on Piezoelectric Materials and Applications (IWPMA), 2024.","ama":"Claes L, Koch K, Friesen O, Meihost L. Machine Learning in Inverse Measurement Problems: An Application to Piezoelectric Material Characterisation.; 2024."},"language":[{"iso":"eng"}],"_id":"55416","project":[{"name":"PC2: Computing Resources Provided by the Paderborn Center for Parallel Computing","_id":"52"},{"name":"FOR 5208: Modellbasierte Bestimmung nichtlinearer Eigenschaften von Piezokeramiken für Leistungsschallanwendungen (NEPTUN)","_id":"245"}],"department":[{"_id":"49"}],"user_id":"11829","status":"public","type":"misc"},{"language":[{"iso":"eng"}],"project":[{"_id":"245","name":"FOR 5208: Modellbasierte Bestimmung nichtlinearer Eigenschaften von Piezokeramiken für Leistungsschallanwendungen (NEPTUN)"}],"_id":"56777","user_id":"11829","department":[{"_id":"49"}],"abstract":[{"lang":"eng","text":"The estimation of accurate piezoelectric material parameters is a fundamental prerequisite for simulation-driven design of piezoelectric actuators and sensors. Previous studies show that a full set of material parameters can be determined in an inverse procedure using a single disc-shaped specimen with an electrode structured for increased sensitivity with respect to all material parameters. However, in the case of high-power actuator applications, ring-shaped piezoelectric components are often employed, necessitating an adaptation of the previously developed method. The alteration in geometry introduces some advantages. Accordingly, there is no longer any requirement to modify the electrode structure in order to enhance sensitivity. The method to estimate the material parameters presented here consists of a total of three stages. An initial, approximate estimation of the material parameters is determined using analytical approximations for the resonance frequencies from the IEEE standard. These values are optimised in an inverse procedure that employs analytic expressions for the electrical impedance of piezoelectric rings as the forward model. Further refinement is achieved by using Finite Element (FE) simulations as the forward model again in an inverse procedure. The method is applied to electrical impedance measurement data, yielding material parameters for hard piezoelectric rings. The result shows a good agreement between the simulation and measurement results, indicating realistic material parameter values."}],"status":"public","type":"journal_article","publication":"tm - Technisches Messen","title":"Estimation of piezoelectric material parameters of ring-shaped specimens","doi":"https://doi.org/10.1515/teme-2024-0107","date_updated":"2026-01-05T07:59:24Z","publisher":"De Gruyter","author":[{"full_name":"Friesen, Olga","id":"44026","last_name":"Friesen","first_name":"Olga"},{"first_name":"Leander","id":"11829","full_name":"Claes, Leander","orcid":"0000-0002-4393-268X","last_name":"Claes"},{"first_name":"Nadine","full_name":"Feldmann, Nadine","id":"23082","last_name":"Feldmann"},{"last_name":"Henning","id":"213","full_name":"Henning, Bernd","first_name":"Bernd"}],"date_created":"2024-10-29T09:07:00Z","year":"2024","citation":{"ama":"Friesen O, Claes L, Feldmann N, Henning B. Estimation of piezoelectric material parameters of ring-shaped specimens. tm - Technisches Messen. Published online 2024. doi:https://doi.org/10.1515/teme-2024-0107","ieee":"O. Friesen, L. Claes, N. Feldmann, and B. Henning, “Estimation of piezoelectric material parameters of ring-shaped specimens,” tm - Technisches Messen, 2024, doi: https://doi.org/10.1515/teme-2024-0107.","chicago":"Friesen, Olga, Leander Claes, Nadine Feldmann, and Bernd Henning. “Estimation of Piezoelectric Material Parameters of Ring-Shaped Specimens.” Tm - Technisches Messen, 2024. https://doi.org/10.1515/teme-2024-0107.","bibtex":"@article{Friesen_Claes_Feldmann_Henning_2024, title={Estimation of piezoelectric material parameters of ring-shaped specimens}, DOI={https://doi.org/10.1515/teme-2024-0107}, journal={tm - Technisches Messen}, publisher={De Gruyter}, author={Friesen, Olga and Claes, Leander and Feldmann, Nadine and Henning, Bernd}, year={2024} }","short":"O. Friesen, L. Claes, N. Feldmann, B. Henning, Tm - Technisches Messen (2024).","mla":"Friesen, Olga, et al. “Estimation of Piezoelectric Material Parameters of Ring-Shaped Specimens.” Tm - Technisches Messen, De Gruyter, 2024, doi:https://doi.org/10.1515/teme-2024-0107.","apa":"Friesen, O., Claes, L., Feldmann, N., & Henning, B. (2024). Estimation of piezoelectric material parameters of ring-shaped specimens. Tm - Technisches Messen. https://doi.org/10.1515/teme-2024-0107"},"publication_status":"published","publication_identifier":{"issn":["2196-7113"]}},{"article_type":"original","alternative_title":["Neural networks for initial value estimation in the identification of piezoelectric material parameters"],"language":[{"iso":"eng"}],"project":[{"name":"ChaMP: Ein modellbasiertes Messverfahren zur Charakterisierung der frequenzabhängigen Materialeigenschaften von Piezokeramiken unter Verwendung eines einzelnen Probekörperindividuums","_id":"90"},{"name":"PC2: Computing Resources Provided by the Paderborn Center for Parallel Computing","_id":"52"},{"name":"FOR 5208: Modellbasierte Bestimmung nichtlinearer Eigenschaften von Piezokeramiken für Leistungsschallanwendungen (NEPTUN)","_id":"245"}],"_id":"54314","user_id":"11829","department":[{"_id":"49"}],"status":"public","type":"journal_article","publication":"tm - Technisches Messen","title":"Neuronale Netze zur Startwertschätzung bei der Identifikation piezoelektrischer Materialparameter","main_file_link":[{"url":"https://www.degruyter.com/document/doi/10.1515/teme-2024-0099/html"}],"doi":"10.1515/teme-2024-0099","date_updated":"2026-01-05T07:59:09Z","publisher":"Walter de Gruyter GmbH","author":[{"first_name":"Kevin","full_name":"Koch, Kevin","last_name":"Koch"},{"last_name":"Claes","orcid":"0000-0002-4393-268X","full_name":"Claes, Leander","id":"11829","first_name":"Leander"},{"first_name":"Benjamin","full_name":"Jurgelucks, Benjamin","last_name":"Jurgelucks"},{"id":"24769","full_name":"Meihost, Lars","last_name":"Meihost","first_name":"Lars"}],"date_created":"2024-05-17T08:26:55Z","year":"2024","citation":{"ama":"Koch K, Claes L, Jurgelucks B, Meihost L. Neuronale Netze zur Startwertschätzung bei der Identifikation piezoelektrischer Materialparameter. tm - Technisches Messen. Published online 2024. doi:10.1515/teme-2024-0099","ieee":"K. Koch, L. Claes, B. Jurgelucks, and L. Meihost, “Neuronale Netze zur Startwertschätzung bei der Identifikation piezoelektrischer Materialparameter,” tm - Technisches Messen, 2024, doi: 10.1515/teme-2024-0099.","chicago":"Koch, Kevin, Leander Claes, Benjamin Jurgelucks, and Lars Meihost. “Neuronale Netze Zur Startwertschätzung Bei Der Identifikation Piezoelektrischer Materialparameter.” Tm - Technisches Messen, 2024. https://doi.org/10.1515/teme-2024-0099.","bibtex":"@article{Koch_Claes_Jurgelucks_Meihost_2024, title={Neuronale Netze zur Startwertschätzung bei der Identifikation piezoelektrischer Materialparameter}, DOI={10.1515/teme-2024-0099}, journal={tm - Technisches Messen}, publisher={Walter de Gruyter GmbH}, author={Koch, Kevin and Claes, Leander and Jurgelucks, Benjamin and Meihost, Lars}, year={2024} }","short":"K. Koch, L. Claes, B. Jurgelucks, L. Meihost, Tm - Technisches Messen (2024).","mla":"Koch, Kevin, et al. “Neuronale Netze Zur Startwertschätzung Bei Der Identifikation Piezoelektrischer Materialparameter.” Tm - Technisches Messen, Walter de Gruyter GmbH, 2024, doi:10.1515/teme-2024-0099.","apa":"Koch, K., Claes, L., Jurgelucks, B., & Meihost, L. (2024). Neuronale Netze zur Startwertschätzung bei der Identifikation piezoelektrischer Materialparameter. Tm - Technisches Messen. https://doi.org/10.1515/teme-2024-0099"},"quality_controlled":"1"},{"year":"2024","intvolume":" 247","citation":{"apa":"Nikolić, V., & Winkler, M. (2024). L∞ blow-up in the Jordan-Moore-Gibson-Thompson equation. Nonlinear Analysis, 247, Article 113600. https://doi.org/10.1016/j.na.2024.113600","bibtex":"@article{Nikolić_Winkler_2024, title={L∞ blow-up in the Jordan-Moore-Gibson-Thompson equation}, volume={247}, DOI={10.1016/j.na.2024.113600}, number={113600}, journal={Nonlinear Analysis}, publisher={Elsevier BV}, author={Nikolić, Vanja and Winkler, Michael}, year={2024} }","mla":"Nikolić, Vanja, and Michael Winkler. “L∞ Blow-up in the Jordan-Moore-Gibson-Thompson Equation.” Nonlinear Analysis, vol. 247, 113600, Elsevier BV, 2024, doi:10.1016/j.na.2024.113600.","short":"V. Nikolić, M. Winkler, Nonlinear Analysis 247 (2024).","chicago":"Nikolić, Vanja, and Michael Winkler. “L∞ Blow-up in the Jordan-Moore-Gibson-Thompson Equation.” Nonlinear Analysis 247 (2024). https://doi.org/10.1016/j.na.2024.113600.","ieee":"V. Nikolić and M. Winkler, “L∞ blow-up in the Jordan-Moore-Gibson-Thompson equation,” Nonlinear Analysis, vol. 247, Art. no. 113600, 2024, doi: 10.1016/j.na.2024.113600.","ama":"Nikolić V, Winkler M. L∞ blow-up in the Jordan-Moore-Gibson-Thompson equation. Nonlinear Analysis. 2024;247. doi:10.1016/j.na.2024.113600"},"publication_identifier":{"issn":["0362-546X"]},"publication_status":"published","title":"L∞ blow-up in the Jordan-Moore-Gibson-Thompson equation","doi":"10.1016/j.na.2024.113600","publisher":"Elsevier BV","date_updated":"2026-01-05T08:02:36Z","volume":247,"date_created":"2024-12-18T07:13:19Z","author":[{"first_name":"Vanja","last_name":"Nikolić","full_name":"Nikolić, Vanja"},{"id":"31496","full_name":"Winkler, Michael","last_name":"Winkler","first_name":"Michael"}],"status":"public","publication":"Nonlinear Analysis","type":"journal_article","article_number":"113600","language":[{"iso":"eng"}],"_id":"57820","project":[{"name":"FOR 5208: Modellbasierte Bestimmung nichtlinearer Eigenschaften von Piezokeramiken für Leistungsschallanwendungen (NEPTUN)","_id":"245"}],"department":[{"_id":"90"}],"user_id":"11829"},{"file_date_updated":"2024-11-13T08:42:13Z","language":[{"iso":"eng"}],"ddc":["006"],"department":[{"_id":"54"}],"user_id":"44006","_id":"57031","status":"public","file":[{"relation":"main_file","content_type":"application/pdf","file_size":300589,"file_id":"57033","access_level":"open_access","file_name":"dist_est_iwaenc24_gburrek.pdf","date_updated":"2024-11-13T08:42:13Z","creator":"tgburrek","date_created":"2024-11-13T08:42:13Z"}],"publication":"2024 18th International Workshop on Acoustic Signal Enhancement (IWAENC)","type":"conference","doi":"10.1109/iwaenc61483.2024.10694103","title":"Diminishing Domain Mismatch for DNN-Based Acoustic Distance Estimation via Stochastic Room Reverberation Models","author":[{"last_name":"Gburrek","id":"44006","full_name":"Gburrek, Tobias","first_name":"Tobias"},{"first_name":"Adrian Tobias","id":"79268","full_name":"Meise, Adrian Tobias","last_name":"Meise"},{"last_name":"Schmalenstroeer","full_name":"Schmalenstroeer, Joerg","id":"460","first_name":"Joerg"},{"last_name":"Haeb-Umbach","id":"242","full_name":"Haeb-Umbach, Reinhold","first_name":"Reinhold"}],"date_created":"2024-11-13T08:39:57Z","date_updated":"2026-01-05T16:28:23Z","oa":"1","publisher":"IEEE","citation":{"chicago":"Gburrek, Tobias, Adrian Tobias Meise, Joerg Schmalenstroeer, and Reinhold Haeb-Umbach. “Diminishing Domain Mismatch for DNN-Based Acoustic Distance Estimation via Stochastic Room Reverberation Models.” In 2024 18th International Workshop on Acoustic Signal Enhancement (IWAENC). IEEE, 2024. https://doi.org/10.1109/iwaenc61483.2024.10694103.","ieee":"T. Gburrek, A. T. Meise, J. Schmalenstroeer, and R. Haeb-Umbach, “Diminishing Domain Mismatch for DNN-Based Acoustic Distance Estimation via Stochastic Room Reverberation Models,” 2024, doi: 10.1109/iwaenc61483.2024.10694103.","ama":"Gburrek T, Meise AT, Schmalenstroeer J, Haeb-Umbach R. Diminishing Domain Mismatch for DNN-Based Acoustic Distance Estimation via Stochastic Room Reverberation Models. In: 2024 18th International Workshop on Acoustic Signal Enhancement (IWAENC). IEEE; 2024. doi:10.1109/iwaenc61483.2024.10694103","apa":"Gburrek, T., Meise, A. T., Schmalenstroeer, J., & Haeb-Umbach, R. (2024). Diminishing Domain Mismatch for DNN-Based Acoustic Distance Estimation via Stochastic Room Reverberation Models. 2024 18th International Workshop on Acoustic Signal Enhancement (IWAENC). https://doi.org/10.1109/iwaenc61483.2024.10694103","mla":"Gburrek, Tobias, et al. “Diminishing Domain Mismatch for DNN-Based Acoustic Distance Estimation via Stochastic Room Reverberation Models.” 2024 18th International Workshop on Acoustic Signal Enhancement (IWAENC), IEEE, 2024, doi:10.1109/iwaenc61483.2024.10694103.","short":"T. Gburrek, A.T. Meise, J. Schmalenstroeer, R. Haeb-Umbach, in: 2024 18th International Workshop on Acoustic Signal Enhancement (IWAENC), IEEE, 2024.","bibtex":"@inproceedings{Gburrek_Meise_Schmalenstroeer_Haeb-Umbach_2024, title={Diminishing Domain Mismatch for DNN-Based Acoustic Distance Estimation via Stochastic Room Reverberation Models}, DOI={10.1109/iwaenc61483.2024.10694103}, booktitle={2024 18th International Workshop on Acoustic Signal Enhancement (IWAENC)}, publisher={IEEE}, author={Gburrek, Tobias and Meise, Adrian Tobias and Schmalenstroeer, Joerg and Haeb-Umbach, Reinhold}, year={2024} }"},"year":"2024","quality_controlled":"1","has_accepted_license":"1","publication_status":"published"},{"publication":"SIAM Journal on Control and Optimization","type":"journal_article","year":"2024","status":"public","citation":{"apa":"Berger, T., Dennstädt, D., Lanza, L., & Worthmann, K. (2024). Robust Funnel Model Predictive Control for Output Tracking with Prescribed Performance. SIAM Journal on Control and Optimization.","mla":"Berger, Thomas, et al. “Robust Funnel Model Predictive Control for Output Tracking with Prescribed Performance.” SIAM Journal on Control and Optimization, 2024.","short":"T. Berger, D. Dennstädt, L. Lanza, K. Worthmann, SIAM Journal on Control and Optimization (2024).","bibtex":"@article{Berger_Dennstädt_Lanza_Worthmann_2024, title={Robust Funnel Model Predictive Control for Output Tracking with Prescribed Performance}, journal={SIAM Journal on Control and Optimization}, author={Berger, Thomas and Dennstädt, Dario and Lanza, L. and Worthmann, K. }, year={2024} }","ama":"Berger T, Dennstädt D, Lanza L, Worthmann K. Robust Funnel Model Predictive Control for Output Tracking with Prescribed Performance. SIAM Journal on Control and Optimization. Published online 2024.","chicago":"Berger, Thomas, Dario Dennstädt, L. Lanza, and K. Worthmann. “Robust Funnel Model Predictive Control for Output Tracking with Prescribed Performance.” SIAM Journal on Control and Optimization, 2024.","ieee":"T. Berger, D. Dennstädt, L. Lanza, and K. Worthmann, “Robust Funnel Model Predictive Control for Output Tracking with Prescribed Performance,” SIAM Journal on Control and Optimization, 2024."},"_id":"53146","date_updated":"2026-01-05T20:52:17Z","department":[{"_id":"618"}],"author":[{"first_name":"Thomas","full_name":"Berger, Thomas","id":"77457","last_name":"Berger"},{"last_name":"Dennstädt","id":"98033","full_name":"Dennstädt, Dario","first_name":"Dario"},{"last_name":"Lanza","full_name":"Lanza, L. ","first_name":"L. "},{"first_name":"K. ","last_name":"Worthmann","full_name":"Worthmann, K. "}],"user_id":"77457","date_created":"2024-04-03T10:08:01Z","title":"Robust Funnel Model Predictive Control for Output Tracking with Prescribed Performance","language":[{"iso":"eng"}]},{"type":"journal_article","publication":"Automatica","year":"2024","citation":{"ama":"Berger T, Dennstädt D. Funnel MPC for nonlinear systems with arbitrary relative degree. Automatica. Published online 2024.","ieee":"T. Berger and D. Dennstädt, “Funnel MPC for nonlinear systems with arbitrary relative degree,” Automatica, 2024.","chicago":"Berger, Thomas, and Dario Dennstädt. “Funnel MPC for Nonlinear Systems with Arbitrary Relative Degree.” Automatica, 2024.","short":"T. Berger, D. Dennstädt, Automatica (2024).","mla":"Berger, Thomas, and Dario Dennstädt. “Funnel MPC for Nonlinear Systems with Arbitrary Relative Degree.” Automatica, 2024.","bibtex":"@article{Berger_Dennstädt_2024, title={Funnel MPC for nonlinear systems with arbitrary relative degree}, journal={Automatica}, author={Berger, Thomas and Dennstädt, Dario}, year={2024} }","apa":"Berger, T., & Dennstädt, D. (2024). Funnel MPC for nonlinear systems with arbitrary relative degree. Automatica."},"status":"public","date_updated":"2026-01-05T20:52:14Z","_id":"53151","author":[{"last_name":"Berger","full_name":"Berger, Thomas","id":"77457","first_name":"Thomas"},{"first_name":"Dario","last_name":"Dennstädt","full_name":"Dennstädt, Dario","id":"98033"}],"user_id":"77457","date_created":"2024-04-03T10:10:33Z","title":"Funnel MPC for nonlinear systems with arbitrary relative degree","language":[{"iso":"eng"}]},{"doi":"10.1016/j.conengprac.2024.106018","title":"Model predictive control of a magnetic levitation system with prescribed output tracking performance","date_created":"2026-01-05T20:49:50Z","author":[{"full_name":"Oppeneiger, Benedikt","last_name":"Oppeneiger","first_name":"Benedikt"},{"first_name":"Lukas","last_name":"Lanza","full_name":"Lanza, Lukas"},{"first_name":"Maximilian","full_name":"Schell, Maximilian","last_name":"Schell"},{"first_name":"Dario","last_name":"Dennstädt","full_name":"Dennstädt, Dario","id":"98033"},{"first_name":"Manuel","last_name":"Schaller","full_name":"Schaller, Manuel"},{"first_name":"Bert","last_name":"Zamzow","full_name":"Zamzow, Bert"},{"full_name":"Berger, Thomas","last_name":"Berger","first_name":"Thomas"},{"last_name":"Worthmann","full_name":"Worthmann, Karl","first_name":"Karl"}],"volume":151,"date_updated":"2026-01-05T20:58:18Z","publisher":"Elsevier BV","citation":{"chicago":"Oppeneiger, Benedikt, Lukas Lanza, Maximilian Schell, Dario Dennstädt, Manuel Schaller, Bert Zamzow, Thomas Berger, and Karl Worthmann. “Model Predictive Control of a Magnetic Levitation System with Prescribed Output Tracking Performance.” Control Engineering Practice 151 (2024). https://doi.org/10.1016/j.conengprac.2024.106018.","ieee":"B. Oppeneiger et al., “Model predictive control of a magnetic levitation system with prescribed output tracking performance,” Control Engineering Practice, vol. 151, Art. no. 106018, 2024, doi: 10.1016/j.conengprac.2024.106018.","ama":"Oppeneiger B, Lanza L, Schell M, et al. Model predictive control of a magnetic levitation system with prescribed output tracking performance. Control Engineering Practice. 2024;151. doi:10.1016/j.conengprac.2024.106018","mla":"Oppeneiger, Benedikt, et al. “Model Predictive Control of a Magnetic Levitation System with Prescribed Output Tracking Performance.” Control Engineering Practice, vol. 151, 106018, Elsevier BV, 2024, doi:10.1016/j.conengprac.2024.106018.","short":"B. Oppeneiger, L. Lanza, M. Schell, D. Dennstädt, M. Schaller, B. Zamzow, T. Berger, K. Worthmann, Control Engineering Practice 151 (2024).","bibtex":"@article{Oppeneiger_Lanza_Schell_Dennstädt_Schaller_Zamzow_Berger_Worthmann_2024, title={Model predictive control of a magnetic levitation system with prescribed output tracking performance}, volume={151}, DOI={10.1016/j.conengprac.2024.106018}, number={106018}, journal={Control Engineering Practice}, publisher={Elsevier BV}, author={Oppeneiger, Benedikt and Lanza, Lukas and Schell, Maximilian and Dennstädt, Dario and Schaller, Manuel and Zamzow, Bert and Berger, Thomas and Worthmann, Karl}, year={2024} }","apa":"Oppeneiger, B., Lanza, L., Schell, M., Dennstädt, D., Schaller, M., Zamzow, B., Berger, T., & Worthmann, K. (2024). Model predictive control of a magnetic levitation system with prescribed output tracking performance. 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Lanza et al., “Sampled-data funnel control and its use for safe continual learning,” Systems & Control Letters, vol. 192, Art. no. 105892, 2024, doi: 10.1016/j.sysconle.2024.105892.","chicago":"Lanza, Lukas, Dario Dennstädt, Karl Worthmann, Philipp Schmitz, Gökçen Devlet Şen, Stephan Trenn, and Manuel Schaller. “Sampled-Data Funnel Control and Its Use for Safe Continual Learning.” Systems & Control Letters 192 (2024). https://doi.org/10.1016/j.sysconle.2024.105892.","mla":"Lanza, Lukas, et al. “Sampled-Data Funnel Control and Its Use for Safe Continual Learning.” Systems & Control Letters, vol. 192, 105892, Elsevier BV, 2024, doi:10.1016/j.sysconle.2024.105892.","short":"L. Lanza, D. Dennstädt, K. Worthmann, P. Schmitz, G.D. Şen, S. Trenn, M. 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