Publications

S. Schmidt, S. Thiele, A. Herkommer, A. Tünnermann, H. Giessen, and H. Gross. 3D freeform holograms on fiber tips. submitted, 2018. [PUMA: 3D printing]

Annika S. Sahrmann, Lukas Vosse, Tobias Siebert, Geoffrey G. Handsfield, and Oliver Röhrle. 3D ultrasound-based determination of skeletal muscle fascicle orientations. In Tobias Siebert (Eds.), Biomechanics and Modeling in Mechanobiology, Mar 26, 2024. [PUMA: Image Skeletal ultrasound 3D Inspo PN2-8 Pennation muscle angle processing Siebert architecture] URL

John L. Barron, Robert E. Mercer, X. Chen, and P. Joe. 3D velocity from 3D Doppler radial velocity. International Journal of Imaging Systems and Technology, (15)3:189--198, 2005. [PUMA: 3D flow;local Velocity;3D optical squares;regularization least Radial Doppler] URL

S. Müller, M. Keller, A. Enssle, A. Lusiewicz, Philipp Präg, D. Maier, J. Fischer, and N. Parspour. 3D-FEM Simulation of a Transverse Flux Machine Respecting Nonlinear and Anisotropic Materials. Proceedings of the 2016 COMSOL Conference in Munich, Comsol, 2016. [PUMA: 3D Nonlinear Formulation;Rotating Module;Anisotropic machines;EM;IEW{\_}Konferenzbeitr{\"a}ge;Mixed Flux hp_iew Model;AC/DC Material;Electric Machinery;TFM;Transverse Machine] URL

S. Thiele, K. Arzenbacher, T. Gissibl, H. Giessen, and A. M. Herkommer. 3D-printed eagle eye: Compound microlens system for foveated imaging. 2017. [PUMA: 3D microlens printing]

Kim Torben Werkle, Walther Maier, Stephan Mayer, and Hans-Christian Möhring. Additive manufacturing of sensors - printing of conductor paths in loaded structures. euspen’s 20th International Conference & Exhibition, (20155):4, 2020. [PUMA: 3d myown additive 3d-druck sensor] URL

A. Toulouse, S. Thiele, H. Giessen, and A. Herkommer. Alignment-free integration of apertures and non-transparent hulls into 3D-printed micro-optics. Opt. Lett., (43)52832018. [PUMA: 3D apertures printing]

Qi Feng, Walther Maier, and Hans-Christian Möhring. Application of machine learning to optimize process parameters in fused deposition modeling of PEEK material. Procedia CIRP, (107):1--8, Elsevier BV, 2022. [PUMA: 3d myown ifw additive 3d-druck] URL

Seiichi Suzuki, Alison Martin, Yingying Ren, Tzu-Ying Chen, Stefana Parascho, and Stefana Pauly. BamX: Rethinking Deployability in Architecture through Weaving. In Kathrin Dörfler, Jan Knippers, Achim Menges, Stefana Parascho, Helmut Pottmann, and Thomas Wortmann (Eds.), Advances in Architectural Geometry 2023, 207-220, De Gruyter, Berlin, Oct 4, 2023. [PUMA: curved chen parascho pauly 2023 gridshell structure 3D weaving itke BamX martin beams deployability elastic geometry ren suzuki architecture]

M. Sartison, S. L. Portalupi, T. Gissibl, M. Jetter, H. Giessen, and P. Michler. Combining in-situ lithography with 3D printed solid immersion lenses for single quantum dot spectroscopy. Scientific Report, (7)399162017. [PUMA: 3D spectroscopy dot lithography quantum printing]

H. Giessen, T. Gissibl, S. Thiele, and A. Herkommer. Das kleinste Endoskop der Welt per 3D-Druck. Physik in unserer Zeit, (47):214, 2016. [PUMA: 3D endoskop printing]

Andreas Häusler, Kim Torben Werkle, Walther Maier, and H.C. Möhring. Design of Lightweight Cutting Tools. International Journal of Automation Technology, (Vol. 14)No. 2:326-335, March 2020. [PUMA: 3d tool cutting ifw additive lightweight] URL

Determination of muscle shape deformations of the tibialis anterior during dynamic contractions using 3D ultrasound. Front. Bioeng. Biotechnol. 12:1388907.. In Tobias Siebert (Eds.), Frontiers in Bioengineering and Biotechnology, (12)June 2024. [PUMA: 3D image muscle deformation processing contraction dynamic movement ultrasound] URL

Hans-Christian Möhring, Jürgen Fleischer, Walther Maier, Quirin Spiller, Florian Baumann, and Simon Merz. Die additive Fertigung als vollständige Prozesskette auf der Online Plattform 3D-Print-Cloud Baden-Württemberg. In Peter Hoyer, Christoph Leyens, Thomas Niendorf, Vasily Ploshikhin, Volker Schulze, and Gerd Witt (Eds.), 84-89, DGM, Wallstraße 58/59 10179 Berlin, April 2018. [PUMA: 3D myown 3D-Druck Cloud ifw additive]

Thomas Winterstetter, Werner Sobek, Radu-Florin Berger, and Agatha Toth. Die Gebäudehülle des Heydar Aliyev Cultural Centre in Baku, Aserbaidschan. Stahlbau, (84)Sonderausgabe Glasbau 2015:145--155, 2015. [PUMA: geometry, Entwurf Konstruktion, komplexe design, sobek complex Parametrisches Design, und 3D Geometrie, Glasbau, Engineering, freeform parametric Freiformgeometrie, Sonderkonstruktion]

Thomas Winterstetter, Mustafa Alkan, Radu Berger, Maiko Watanabe, Agatha Toth, and Werner Sobek. Engineering complex geometries – the Heydar Aliyev Centre in Baku. Steel Construction, (8)1:65--71, 2015. [PUMA: 3D geometry, sobek Engineering, design complex freeform parametric Design,] URL

H.-Ch.; Möhring, T.; Stehle, U.; Popp, D.; Becker, R.; Eisseler, and W. Maier. FLM: Qualitätssteigerung von additiv gefertigten Bauteilen aus carbonfaserverstärktenm PEEK. Scharfe Kanten, Bohrungen und Stufen sind auch in PEEK möglich.. In Konradin Verlag Robert Kohlhammer (Eds.), Das Magazin für generative Fertigung, mav, (2019)03:S.40-44, 2019. [PUMA: 3d peek-cf carbon Qualität ifw additive 3d-druck peek] URL

Markus Birkhold, Armin Lechler, and u.a.. Industrie 4.0 - Chance für die Umformtechnik: Industrie 4.0 - Chance für die Umformtechnik. --, 2014. [PUMA: 3D Industrie gestützte Maschinenbedienung Umformtechnik, ISW 4.0,]

Mark Wörner, Martin Weickgenannt, Stefan Neuhäuser, Christoph Göhrle, Werner Sobek, and Oliver Sawodny. Kinematic modeling of a hydraulically actuated 3-SPR-parallel manipulator for an adaptive shell structure. 2013 IEEE/ASME International Conference on Advanced Intelligent Mechatronics (AIM), July 9-12, 2013, Wollongong, Australia, 1330--1336, 2013. [PUMA: stress model, passive system, deformation, 3D condition, supports, support inverse Kinematics, statistical (structures), joint, vibration structure, hydraulic adaptive systems SPR manipulator control, numerical actuated displacement, sobek shells Mathematical forward shell loading Manipulator kinematic Joints, actuators, position Vectors, constraint reduction, modeling, indeterminate kinematics, robot parallel structural statically analysis, dynamics, prismatic]

Jaebok Kim, Khiet P Truong, Gwenn Englebienne, and Vanessa Evers. Learning spectro-temporal features with 3D CNNs for speech emotion recognition. arXiv preprint arXiv:1708.05071, 2017. [PUMA: recognition, Recola, multilingual, Semaine, 3D emotion speech IEMOCAP, convolution multiple CNN, corpora, spectrogram,]

Qi Feng, Walther Maier, Thomas Stehle, and Hans-Christian Möhring. Optimization of a clamping concept based on machine learning. Production Engineering, Springer Science and Business Media LLC, August 2021. [PUMA: 3d myown 4.0 ifw additive 3d-druck] URL

Yihui Yang, and Volker Schwieger. Patch-based M3C2: Towards lower-uncertainty and higher-resolution deformation analysis of 3D point clouds. International Journal of Applied Earth Observation and Geoinformation, (125):103535, 2023. [PUMA: 3D cloud point 2023 iigs] URL

Walter Haase, Marzena Husser, and Werner Sobek. Potentiale strukturierter, schaltbarer Verglasungen. Stahlbau, (85)Sonderausgabe Glasbau 2016:293--306, 2016. [PUMA: geometry, Entwurf Konstruktion, komplexe design, sobek complex Parametrisches Design, und 3D Geometrie, Glasbau, Engineering, freeform parametric Freiformgeometrie, Sonderkonstruktion]

Jian-Min Li, and Jan Knippers. Rotation Formulations for Dynamic Relaxation – with Application in 3D Framed Structures with Large Displacements and Rotations. Proceedings of the International Symposium of the IASS-APCS Symposium, Seoul, Korea, 21-24 May 2012. [PUMA: rotation large relaxation 2012 knippers engineering application structure 3D framed itke from:petraheim formulation displacement dynamic li]

J. Franke. Räumliche elektronische Baugruppen (3D-MID): Werkstoffe, Herstellung, Montage und Anwendungen für spritzgegossene Schaltungsträger. Carl Hanser Verlag GmbH & Co. KG, 2013. [PUMA: 3D Elektronik Schaltungen Spritzguss]

Zizhuang Wei, Yao Wang, Hongwei Yi, Yisong Chen, and Guoping Wang. Semantic 3D Reconstruction with Learning MVS and 2D Segmentation of Aerial Images. Applied Sciences, (10)4:1275, MDPI AG, February 2020. [PUMA: 3D reconstruction] URL

Jan Michel Wassermann. Simulationsgestützte Machbarkeitsstudie einer Transversalflussasynchronmaschine. In Martin Schmid, and Jonathan Terfurth (Eds.), Institut für Elektrische Energiewandlung, Stuttgart, 2020-08-13. [PUMA: 3D Asynchronmaschine Simulation iew_stua_em COMSOL_Multiphysics Transversalfluss zeitabh{\"a}ngig]

K. Weber, F. Hütt, S. Thiele, T. Gissibl, A. Herkommer, and H. Giessen. Single mode fiber based delivery of OAM light by 3D direct laser writing. Opt. Express, (25):19672, 2017. [PUMA: 3D writing fiber laser]

S. Fischbach, A. Schlehahn, A. Thoma, N. Srocka, T. Gissibl, S. Ristok, S. Thiele, A. Kaganskiy, A. Strittmatter, T. Heindel, S. Rodt, A. Herkommer, H. Giessen, and S. Reitzenstein. Single Quantum Dot with microlens and 3D printed microobjective as integrated bright single photon source. ACS PHOTONICS, (4)6:1327-1332, 2017. [PUMA: 3D microobjective photon dot quantum microlens]

Timo Gissibl, Simon Thiele, Alois Herkommer, and Harald Giessen. Sub-micrometre accurate free-form optics by three-dimensional printing on single-mode fibres. NATURE COMMUNICATIONS, (7)NATURE PUBLISHING GROUP, June 2016. [PUMA: 3D sub-micrometer single-mode fibre]

August Lehrecke, Cody Tucker, Xiliu Yang, Piotr Baszynski, and Hanaa Dahy. Tailored Lace : Moldless Fabrication of 3D Bio-Composite Structures through an Integrative Design and Fabrication Process. Applied Sciences, (11)22:10989, MDPI, 2021. [PUMA: moldless biomat dahy process lace tucker tailored baszynski bio-composite 2021 digital integrative structure 3D design itke craft lehrecke fabrication architecture]

M. Schmid, S. Thiele, A. Herkommer, and H. Giessen. Three-dimensional direct laser written achromatic axicons and multi-component microlenses. Opt. Lett., (43):5837, 2018. [PUMA: 3D achromatic laser microlense]

S. Thiele, T. Gissibl, H. Giessen, and A. Herkommer. Ultra-compact on-chip LED collimation optics by 3D-printing. Opt. Lett., (41):3029, 2016. [PUMA: 3D ultra-compact printing]

Kim Kaiser. Untersuchung der Einflussfaktoren additiver Fertigung auf den Wirkungsgrad einer Transversalflussmaschine. In Martin Schmid (Eds.), Institut für Elektrische Energiewandlung, Stuttgart, 2020-12-01. [PUMA: 3D iew_stua_em COMSOL_Multiphysics Transversalflussmaschine Additive_Fertigung Finite-Elemente-Methode Verlustbetrachtung]

Barbara Burr, Thomas Richter, Sabina Jeschke, Nicole Natho, and Olivier Pfeiffer. Virtual and Remote Laboratories in Distance Education. 3rd Annual Forum on e-learning Excellence in the Middle East, Dubai, UAE, February 2010. [PUMA: 3D laboratories, worlds education, virtual academic remote]