no code implementations • 17 Oct 2023 • Tessa Nogatz, Claudia Redenbach, Katja Schladitz
We present a novel algorithm explicitly tailored to estimate motion from time series of 3D images of concrete.
no code implementations • 31 Jul 2023 • Alexander Geng, Ali Moghiseh, Claudia Redenbach, Katja Schladitz
Quantum computers possess the potential to process data using a remarkably reduced number of qubits compared to conventional bits, as per theoretical foundations.
no code implementations • 17 Jul 2023 • Tin Barisin, Jesus Angulo, Katja Schladitz, Claudia Redenbach
In this work, we define an alternative feature representation based on the Riesz transform.
no code implementations • 8 May 2023 • Tin Barisin, Katja Schladitz, Claudia Redenbach
For neural networks, scale invariance is typically achieved by data augmentation.
1 code implementation • 23 Mar 2023 • Alex Keilmann, Michael Godehardt, Ali Moghiseh, Claudia Redenbach, Katja Schladitz
Elongated anisotropic Gaussian filters are used for the orientation estimation of fibers.
no code implementations • 13 Apr 2022 • Michael Godehardt, Ali Moghiseh, Christine Oetjen, Joachim Ohser, Simon Ringger, Katja Schladitz, Ingo Windschiegel
Cloudiness or formation is a concept used to describe deviations from homogeneity in filter media.
no code implementations • 22 Mar 2022 • Alexander Geng, Ali Moghiseh, Claudia Redenbach, Katja Schladitz
In this paper, we propose a hybrid method for quantum edge detection based on the idea of a quantum artificial neuron.
no code implementations • 6 Jan 2022 • Michael Godehardt, Ali Moghiseh, Christine Oetjen, Joachim Ohser, Katja Schladitz
Measuring a cloudiness index based on image data is a common task in industrial quality assurance.
no code implementations • 29 Oct 2021 • Alexander Geng, Ali Moghiseh, Claudia Redenbach, Katja Schladitz
Quantum image processing promises to encode images with logarithmically less qubits than classical pixels in the image.
no code implementations • 13 May 2020 • Thomas Baranowski, Dascha Dobrovolskij, Kilian Dremel, Astrid Hölzing, Günter Lohfink, Katja Schladitz, Simon Zabler
The local fiber orientation is a micro-structural feature crucial for the mechanical properties of parts made from fiber reinforced polymers.