Publications

Tobias Haist. Kettenrechnen. CT - Computertechnik, (89)2:104-106, 1989. [PUMA: ito journal myown tobias_haist]

Shihao Dong, Tobias Haist, Wolfgang Osten, Thomas Ruppel, and Oliver Sawodny. Response analysis of holography-based modal wavefront sensor. Applied Optics, (51)9:1318, The Optical Society, March 2012. [PUMA: ito journal myown tobias_haist] URL

Simon Amann, Tobias Haist, Alexander Gatto, Markus Kamm, and Stephan Reichelt. Parallelized computed tomography imaging spectrometer. Digital Optical Technologies 2023, (12624):71--77, 2023. [PUMA: ito myown proceedings simon_amann tobias_haist]

T. Haist, C. Lingel, W. Osten, M. Winter, M. Giesen, F. Ritter, K. Sandfort, C. Rembe, and K. Bendel. Multipoint vibrometry with dynamic and static holograms. Review of Scientific Instruments, (84)12AIP Publishing, December 2013. [PUMA: ito journal myown tobias_haist] URL

Tobias Haist, Robin Hahn, and Kristina Michel. Imaging device for imaging at least one object. Google Patents, 2023. [PUMA: ito journal myown tobias_haist]

Flavio Guerra, Philipp Wilhelm, and Tobias Haist. Holographic Wide-Angle System for Deformation Measurement of Extended Structures. Optics, (3)1:79--87, 2022. [PUMA: ito journal myown tobias_haist] URL

Tobias Haist, Marc Gronle, Duc Anh Bui, and Wolfgang Osten. Holographic multipoint generation for sensing positions. TM-TECHNISCHES MESSEN, (82)5:273--279, WALTER DE GRUYTER GMBH GENTHINER STRASSE 13, D-10785 BERLIN, GERMANY, 2015. [PUMA: imported ito journal tobias_haist]

Hao Pang, Tobias Haecker, Alexandre Bense, Tobias Haist, and Daniel Flamm. Focal field analysis of highly multi-mode fiber beams based on modal decomposition. Applied Optics, (59)22:6584, Optica Publishing Group, July 2020. [PUMA: ito journal myown tobias_haist] URL

Tobias Haist, Felix Lodholz, Andreas Faulhaber, and Stephan Reichelt. Differential perspective as a nonexpensive distance sensing principle. In Jürgen Beyerer, and Michael Heizmann (Eds.), Automated Visual Inspection and Machine Vision V, (12623):126230E, SPIE, 2023. [PUMA: ito myown proceedings tobias_haist] URL

Tobias Haist, Robin Hahn, and Stephan Reichelt. Areal multispectral sensor with variable choice of spatial and spectral resolution. In KIT Forum Bildverarbeitung (Eds.), Forum Bildverarbeitung 2022, (2022)2022. [PUMA: ito journal myown tobias_haist]

Hao Pang, Tobias Haist, and Tobias Haecker. Absorption of tailored laser beams within 3D laser cutting kerfs. Journal of Laser Applications, (33)3Laser Institute of America, June 2021. [PUMA: ito journal myown tobias_haist] URL

Tobias Haist. Digitale Bildverarbeitung auf 100 Seiten - mit einer Einführung in Python, OpenCV und ITOM. 2018. [PUMA: ito myown tobias_haist] URL

Tobias Haist. Optik in der industriellen Bildverarbeitung. 2018. [PUMA: ito myown tobias_haist] URL

Tobias Haist. Optische Phänomene in Natur und Alltag. Universität Stuttgart, 2018. [PUMA: ito myown proceedings tobias_haist] URL

M Reicherter, S Zuick, T Haist, and .... DIGITAL HOLOGRAPHY-Optical Trapping and Tweezing-Fast digital hologram generation and adaptive force measurement in liquid-crystal-display …. Applied …, New York: Optical Society of …, 2006. [PUMA: imported ito journal myown tobias_haist]

T Haist. 3D Linienraster f ur die optische Formaufzeichnung. 1996. [PUMA: imported ito journal myown tobias_haist]

…, S Zwick, W Gorski, and T Haist. Aberration control in holographic tweezers using image processing. CLEO/Europe. 2005 …, ieeexplore.ieee.org, 2005. [PUMA: imported ito journal myown tobias_haist] URL

T Haist. Buchbesprechung: Handbook of Optical Systems von H. Gross. Optik & Photonik, Wiley Online Library, 2006. [PUMA: imported ito journal myown tobias_haist] URL

T Haist. 3D-Linienraster für die optische Formaufzeichnung. elib.uni-stuttgart.de, 1996. [PUMA: imported ito journal myown tobias_haist] URL

T Haist, and HJ Tiziani. Einsatzmöglichkeiten moderner Lichtmodulatoren in der Bildverarbeitung. VDI-Berichte, VDI-Verlag, 2000. [PUMA: imported ito journal myown tobias_haist]