Publications

L. F. O. Chamon, G. J. Pappas, und A. Ribeiro. Approximate Supermodularity of Kalman filter sensor selection. IEEE Trans. on Autom. Control., (661):49--63, 2021. [PUMA: journal]

L. Ruiz, L. F. O. Chamon, und A. Ribeiro. Graphon signal processing. IEEE Trans. on Signal Process., (69):4961--4976, 2021. [PUMA: journal]

L. F. O. Chamon, A. Amice, und A. Ribeiro. Approximately supermodular scheduling subject to matroid constraints. IEEE Trans. on Autom. Control., (673):1384--1396, 2022. [PUMA: journal]

S. Paternain, M. Calvo-Fullana, L. F. O. Chamon, und A. Ribeiro. Safe policies for reinforcement learning via primal-dual methods. IEEE Trans. on Autom. Control., (683):1321--1336, 2023. [PUMA: journal]

D. Lamb, L. F. O. Chamon, und V. H. Nascimento. An efficient filtering structure for spline interpolation and decimation. IET Electronics Letters, (521):39--41, 2016. [PUMA: journal]

L. F. O. Chamon, und A. Ribeiro. Greedy sampling of graph signals. IEEE Trans. on Signal Process., (661):34--47, 2018. [PUMA: journal]

L. F. O. Chamon, Y. C. Eldar, und A. Ribeiro. Functional nonlinear sparse models. IEEE Trans. on Signal Process., (681):2449--2463, 2020. [PUMA: journal]

H. F. Ferro, L. F. O. Chamon, und C. G. Lopes. FIR-IIR adaptive filters hybrid combination. IET Electronics Letters, (507):501--503, 2014. [PUMA: journal]

M. Peifer, L. F. O. Chamon, S. Paternain, und A. Ribeiro. Sparse multiresolution representations with adaptive kernels. IEEE Trans. on Signal Process., (681):2031--2044, 2020. [PUMA: journal]

M. Eisen, C. Zhang, L. F. O. Chamon, D. D. Lee, und A. Ribeiro. Learning optimal resource allocations in wireless systems. IEEE Trans. on Signal Process., (6710):2775--2790, 2019. [PUMA: journal]

A. Y. Karoui, und R. I. Leine. Model reduction of a periodically forced slow–fast continuous piecewise linear system. Nonlinear Dynamics, 2023. [PUMA: journal inm leine project_karoui]

Leon Pauly, Lukas Maier, Souvik Dey, Sibylle Schmied, Ulrich Nieken, und Götz T. Gresser. Image-based analysis of single jersey loop parameters. Textile Research Journal, (-):-, 2023. [PUMA: icvt journal maier nieken] URL

Denys Didychenko, Stefan Esser, Frieder Beirow, Anton Savchenko, Christof Pruss, Thomas Graf, und Marwan Abdou Ahmed. Generation of a radially polarized beam in a polycrystalline ceramic Yb:Lu2O3 thin-disk laser. Applied Physics B, (129)9:146, 24.08.2023. [PUMA: anton_savchenko christof_pruss ito journal myown] URL

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

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

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

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

Flavio Guerra, Philipp Wilhelm, und 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, und 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, und Daniel Flamm. Focal field analysis of highly multi-mode fiber beams based on modal decomposition. Applied Optics, (59)22:6584, Optica Publishing Group, Juli 2020. [PUMA: ito journal myown tobias_haist] URL