Publications

Anika Behrendt, Tobias Siebert, and Sonia D’Souza. Impact of body weight and age on plantar pressure in typically developing children: Normative data and methodological considerations. In Tobias Siebert (Eds.), Journal of Children’s Orthopaedics, (19)3:179–188, SAGE Publications, May 2025. [PUMA: Pedobarography age body children chronological data normalisation normative parameter weight] URL

Jan Mittelstädt, and Werner Sobek. Implantate für Bauteile aus UHFFB. 3. DAfStb-Jahrestagung mit 56. Forschungskolloquium, 11.-12. November 2015, Stuttgart, 31--38, Stuttgart, 2015. [PUMA: analysis automated chain, components, concrete functionally graded parameter process sobek]

Werner Sobek, and Walter Haase. Übersicht über die Forschungen am ILEK im Bereich Leichtbau. 3. DAfStb-Jahrestagung mit 56. Forschungskolloquium, 11.-12. November 2015, Stuttgart, 9--14, Stuttgart, 2015. [PUMA: analysis automated chain, components, concrete functionally graded parameter process sobek]

Christine Flaig, Walter Haase, Michael Heidingsfeld, and Werner Sobek. Prototype of an adaptive glass façade with vertically prestressed cables. Engineered Transparency 2016: Glass in Architecture and Structural Engineering, September 20-21, 2016, Düsseldorf, 213--222, 2016. [PUMA: analysis automated chain, components, concrete functionally graded parameter process sobek]

Oliver Gericke, Walter Haase, and Werner Sobek. Herstellung von Freiform-Betonbauteilen mittels einer gefrorenen Schalung aus Wasser und Sand. 3. DAfStb-Jahrestagung mit 56. Forschungskolloquium, 11.-12. November 2015, Stuttgart, 23--30, Stuttgart, 2015. [PUMA: analysis automated chain, components, concrete functionally graded parameter process sobek]

Sören Sippel, Mark Wörner, Daniel Schmeer, Oliver Sawodny, Werner Sobek, and Harald Garrecht. Dichteanpassbare Betongemische für das Trockenspritzen von gradierten Bauteilen. 3. DAfStb-Jahrestagung mit 56. Forschungskolloquium, 11.-12. November 2015, Stuttgart, 137--143, Stuttgart, 2015. [PUMA: analysis automated chain, components, concrete functionally graded parameter process sobek]

Daniel Schmeer, Michael Herrmann, Mark Wörner, Sören Sippel, Oliver Sawodny, Harald Garrecht, and Werner Sobek. Entwurf und automatisierte Herstellung von Bauteilen aus funktional gradiertem Beton. 3. DAfStb-Jahrestagung mit 56. Forschungskolloquium, 11.-12. November 2015, Stuttgart, 15--22, Stuttgart, 2015. [PUMA: analysis automated chain, components, concrete functionally graded parameter process sobek]

Thomas Winterstetter, Lucio Blandini, and Werner Sobek. Building Doha - Qatars iconic façade projects. Engineered Transparency 2016: Glass in Architecture and Structural Engineering, September 20-21, 2016, Düsseldorf, 309--316, 2016. [PUMA: analysis automated chain, components, concrete functionally graded parameter process sobek]

Werner Sobek, and Heiko Trumpf. Sustainable tall buildings - some introductory remarks. Tall & Green: Typology for a Sustainable Urban Future, 8th CTBUH World Congress, March 3-5, 2008, Dubai, UAE, 114--119, 2008. [PUMA: analysis automated chain, components, concrete functionally graded parameter process sobek]

Michael Herrmann, Jan Mittelstädt, Mark Wörner, Sören Sippel, Werner Sobek, Oliver Sawodny, and Hans-Wolf Reinhardt. Optimalstrukturen aus funktional gradiertem Beton - Entwurf, Berechnung und automatisierte Herstellung. 1. DAfStb-Jahrestagung mit 54. Forschungskolloquium, 07.-08. November 2013, Bochum, 41--46, Bochum, 2013. [PUMA: analysis automated chain, components, concrete functionally graded parameter process sobek]

Mark Wörner, Sören Sippel, Daniel Schmeer, Harald Garrecht, Werner Sobek, and Oliver Sawodny. Automated spraying of functionally graded concrete components - Analysis of the process parameters. Future Visions, IASS Symposium, August 17-20, 2015, Amsterdam, The Netherlands, Paper 501665, 2015. [PUMA: analysis automated chain, components, concrete functionally graded parameter process sobek]

Fabian Schuster. Verbesserung und Validierung der Messfähigkeit eines Prüfstandes zur Identifikation der Parameter von Permanentmagneterregten Synchronmaschinen. In Marcel Waldhof (Eds.), Institut für Elektrische Energiewandlung, Stuttgart, 2019-02-08. [PUMA: Messf{\"a}higkeit PMSM Parameter Pr{\"u}fstand Validierung Verbesserung iew_stua_em]

Robert Rockenfeller, Michael Günther, Norman Stutzig, Daniel F. B. Haeufle, Tobias Siebert, Syn Schmitt, Kay Leichsenring, Markus Böl, and Thomas Götz. Exhaustion of Skeletal Muscle Fibers Within Seconds: Incorporating Phosphate Kinetics Into a Hill-Type Model. In Tobias Siebert (Eds.), Frontiers in Physiology, (11)Frontiers Media SA, May 2020. [PUMA: analysis biomechanics dynamics endurance estimation fatigue first-order optimization parameter sensitivity time] URL

S. Kanev, C. W. Scherer, M. Verhaegen, and B. De Schutter. Robust output-feedback controller design via local BMI optimization. Automatica, (40)7:1115-1127, July 2004. [PUMA: algorithms bilinear control design dynamic feasibility formulas global h-2 h-infinity imng inequalities linear-systems lmis matrix multiobjective optimization order output-feedback parameter peerReviewed robust structured synthesis uncertainty] URL

S. Kanev, C. W. Scherer, M. Verhaegen, and B. De Schutter. Robust output-feedback controller design via local BMI optimization. Automatica, (40)7:1115-1127, July 2004. [PUMA: robust multiobjective synthesis control imng feasibility bilinear h-infinity inequalities algorithms formulas linear-systems global h-2 matrix uncertainty output-feedback from:carsten.scherer design optimization parameter peerReviewed lmis structured dynamic order] URL

Ina Eisenkolb, Antje Jensch, Kerstin Eisenkolb, Andrei Kramer, Patrick C. F. Buchholz, Jürgen Pleiss, Antje Spiess, and Nicole E. Radde. Modeling of biocatalytic reactions: A workflow for model calibration, selection, and validation using Bayesian statistics. AIChE Journal, (n/a)n/a:e16866, 2019. [PUMA: thiamine-diphosphate-dependent kinetics, Markov chain profile enzymes residual from:ist_bib Monte Carlo, parameter estimation, analysis, likelihood, carboligation, enzyme] URL

K. Kuritz, S. Zeng, and F. Allgöwer. Ensemble Controllability of Cellular Oscillators. IEEE Control Systems Letters, (3)2:296-301, 2018. [PUMA: systems. Oscillators;Sociology;Statistics;Controllability;Limit-cycles;Diseases;Orbits;Systems applications;Distributed dynamics;Biological parameter biology;Emerging control from:ist_bib systems;Cellular]

Ina Eisenkolb, Antje Jensch, Kerstin Eisenkolb, Andrei Kramer, Patrick C. F. Buchholz, Jürgen Pleiss, Antje Spiess, and Nicole E. Radde. Modeling of biocatalytic reactions: A workflow for model calibration, selection, and validation using Bayesian statistics. AIChE Journal, (n/a)n/a:e16866, 2019. [PUMA: Carlo, Markov Monte analysis, carboligation, chain enzyme enzymes estimation, kinetics, likelihood, parameter profile residual thiamine-diphosphate-dependent] URL

K. Kuritz, S. Zeng, and F. Allgöwer. Ensemble Controllability of Cellular Oscillators. IEEE Control Systems Letters, (3)2:296-301, 2018. [PUMA: Oscillators;Sociology;Statistics;Controllability;Limit-cycles;Diseases;Orbits;Systems applications;Distributed biology;Emerging control dynamics;Biological parameter systems. systems;Cellular]

Ina Eisenkolb, Antje Jensch, Kerstin Eisenkolb, Andrei Kramer, Patrick C. F. Buchholz, J�rgen Pleiss, Antje Spiess, and Nicole E. Radde. Modeling of biocatalytic reactions: A workflow for model calibration, selection, and validation using Bayesian statistics. AIChE Journal, (n/a)n/a:e16866, 2019. [PUMA: Carlo, Markov Monte analysis, carboligation, chain enzyme enzymes estimation, kinetics, likelihood, parameter profile residual thiamine-diphosphate-dependent unchecked] URL