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371 results on '"Zimmermann, Felix"'

1. Machine Learning for Quantitative MR Image Reconstruction

Author

Kofler, Andreas, Zimmermann, Felix Frederik, and Papafitsoros, Kostas

Subjects
Mathematics - Optimization and Control
Abstract

In the last years, the design of image reconstruction methods in the field of quantitative Magnetic Resonance Imaging (qMRI) has experienced a paradigm shift. Often, when dealing with (quantitative) MR image reconstruction problems, one is concerned with solving one or a couple of ill-posed inverse problems which require the use of advanced regularization methods. An increasing amount of attention is nowadays put on the development of data-driven methods using Neural Networks (NNs) to learn meaningful prior information without the need to explicitly model hand-crafted priors. In addition, the available hardware and computational resources nowadays offer the possibility to learn regularization models in a so-called model-aware fashion, which is a unique key feature that distinguishes these models from regularization methods learned in a more classical, model-agnostic manner. Model-aware methods are not only tailored to the considered data, but also to the class of considered imaging problems and nowadays constitute the state-of-the-art in image reconstruction methods. In the following chapter, we provide the reader with an extensive overview of methods that can be employed for (quantitative) MR image reconstruction, also highlighting their advantages and limitations both from a theoretical and computational point of view.

Published
2024

2. Virtuelle Wirklichkeiten

Author

Zimmermann, Felix

Subjects
Media Studies, Game Studies, Game Art, Production Studies, Anno 1800, Dishonored, Assassin’s Creed Syndicate, Ambience, Atmosphere, Game Design, Immersion, Public History, thema EDItEUR::J Society and Social Sciences::JB Society and culture: general::JBC Cultural and media studies::JBCT Media studies, thema EDItEUR::U Computing and Information Technology::UG Graphical and digital media applications::UGD Desktop publishing, thema EDItEUR::U Computing and Information Technology::UD Digital Lifestyle and online world: consumer and user guides::UDB Internet guides and online services::UDBV Virtual worlds, thema EDItEUR::U Computing and Information Technology::UD Digital Lifestyle and online world: consumer and user guides::UDX Computer games / online games: strategy guides, thema EDItEUR::U Computing and Information Technology::UM Computer programming / software engineering::UMK Games development and programming
Abstract

Atmospheres are everywhere: at the workplace, in the soccer stadium, in front of the crackling fireplace. They shape our everyday language and have become quite natural expressions of how we find ourselves in certain environments and how we feel about them. Their influence is far-reaching: aesthetic atmospheres are closely linked to a contemporary experience-oriented historical culture whose products and practices claim to establish an immediate contact with the past. With ›Vergangenheitsatmosphären‹ Felix Zimmermann offers for the first time a term to adequately describe this striving for immediacy. By means of in-depth analyses of the digital games »Anno 1800« (2019), »Assassin's Creed Syndicate« (2015), and »Dishonored: The Mask of Wrath« (2012), the term is contoured and the productivity of atmospheric research trained on theories and methods of public history, game studies, and phenomenology is demonstrated.

Published
2023
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3. NoSENSE: Learned unrolled cardiac MRI reconstruction without explicit sensitivity maps

Author

Zimmermann, Felix Frederik and Kofler, Andreas

Subjects
Electrical Engineering and Systems Science - Image and Video Processing, Computer Science - Computer Vision and Pattern Recognition, Computer Science - Machine Learning, Physics - Medical Physics
Abstract

We present a novel learned image reconstruction method for accelerated cardiac MRI with multiple receiver coils based on deep convolutional neural networks (CNNs) and algorithm unrolling. In contrast to many existing learned MR image reconstruction techniques that necessitate coil-sensitivity map (CSM) estimation as a distinct network component, our proposed approach avoids explicit CSM estimation. Instead, it implicitly captures and learns to exploit the inter-coil relationships of the images. Our method consists of a series of novel learned image and k-space blocks with shared latent information and adaptation to the acquisition parameters by feature-wise modulation (FiLM), as well as coil-wise data-consistency (DC) blocks. Our method achieved PSNR values of 34.89 and 35.56 and SSIM values of 0.920 and 0.942 in the cine track and mapping track validation leaderboard of the MICCAI STACOM CMRxRecon Challenge, respectively, ranking 4th among different teams at the time of writing. Code will be made available at https://github.com/fzimmermann89/CMRxRecon, Comment: Accepted at MICCAI STACOM 2023

Published
2023

4. PINQI: An End-to-End Physics-Informed Approach to Learned Quantitative MRI Reconstruction

Author

Zimmermann, Felix F, Kolbitsch, Christoph, Schuenke, Patrick, and Kofler, Andreas

Subjects
Electrical Engineering and Systems Science - Image and Video Processing, Computer Science - Computer Vision and Pattern Recognition, Computer Science - Machine Learning, Physics - Medical Physics
Abstract

Quantitative Magnetic Resonance Imaging (qMRI) enables the reproducible measurement of biophysical parameters in tissue. The challenge lies in solving a nonlinear, ill-posed inverse problem to obtain the desired tissue parameter maps from acquired raw data. While various learned and non-learned approaches have been proposed, the existing learned methods fail to fully exploit the prior knowledge about the underlying MR physics, i.e. the signal model and the acquisition model. In this paper, we propose PINQI, a novel qMRI reconstruction method that integrates the knowledge about the signal, acquisition model, and learned regularization into a single end-to-end trainable neural network. Our approach is based on unrolled alternating optimization, utilizing differentiable optimization blocks to solve inner linear and non-linear optimization tasks, as well as convolutional layers for regularization of the intermediate qualitative images and parameter maps. This design enables PINQI to leverage the advantages of both the signal model and learned regularization. We evaluate the performance of our proposed network by comparing it with recently published approaches in the context of highly undersampled $T_1$-mapping, using both a simulated brain dataset, as well as real scanner data acquired from a physical phantom and in-vivo data from healthy volunteers. The results demonstrate the superiority of our proposed solution over existing methods and highlight the effectiveness of our method in real-world scenarios., Comment: This work has been accepted for publication in IEEE Transactions on Computational Imaging. Changes were made to this version by the publisher before publication. IEEE Transactions on Computational Imaging (2024)

Published
2023
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5. Unrolled three-operator splitting for parameter-map learning in Low Dose X-ray CT reconstruction

Author

Kofler, Andreas, Altekrüger, Fabian, Ba, Fatima Antarou, Kolbitsch, Christoph, Papoutsellis, Evangelos, Schote, David, Sirotenko, Clemens, Zimmermann, Felix Frederik, and Papafitsoros, Kostas

Subjects
Mathematics - Optimization and Control, Electrical Engineering and Systems Science - Image and Video Processing
Abstract

We propose a method for fast and automatic estimation of spatially dependent regularization maps for total variation-based (TV) tomography reconstruction. The estimation is based on two distinct sub-networks, with the first sub-network estimating the regularization parameter-map from the input data while the second one unrolling T iterations of the Primal-Dual Three-Operator Splitting (PD3O) algorithm. The latter approximately solves the corresponding TV-minimization problem incorporating the previously estimated regularization parameter-map. The overall network is then trained end-to-end in a supervised learning fashion using pairs of clean-corrupted data but crucially without the need of having access to labels for the optimal regularization parameter-maps., Comment: arXiv admin note: substantial text overlap with arXiv:2301.05888

Published
2023

7. Learning Regularization Parameter-Maps for Variational Image Reconstruction using Deep Neural Networks and Algorithm Unrolling

Author

Kofler, Andreas, Altekrüger, Fabian, Ba, Fatima Antarou, Kolbitsch, Christoph, Papoutsellis, Evangelos, Schote, David, Sirotenko, Clemens, Zimmermann, Felix Frederik, and Papafitsoros, Kostas

Subjects
Mathematics - Optimization and Control
Abstract

We introduce a method for fast estimation of data-adapted, spatio-temporally dependent regularization parameter-maps for variational image reconstruction, focusing on total variation (TV)-minimization. Our approach is inspired by recent developments in algorithm unrolling using deep neural networks (NNs), and relies on two distinct sub-networks. The first sub-network estimates the regularization parameter-map from the input data. The second sub-network unrolls $T$ iterations of an iterative algorithm which approximately solves the corresponding TV-minimization problem incorporating the previously estimated regularization parameter-map. The overall network is trained end-to-end in a supervised learning fashion using pairs of clean-corrupted data but crucially without the need of having access to labels for the optimal regularization parameter-maps. We prove consistency of the unrolled scheme by showing that the unrolled energy functional used for the supervised learning $\Gamma$-converges as $T$ tends to infinity, to the corresponding functional that incorporates the exact solution map of the TV-minimization problem. We apply and evaluate our method on a variety of large scale and dynamic imaging problems in which the automatic computation of such parameters has been so far challenging: 2D dynamic cardiac MRI reconstruction, quantitative brain MRI reconstruction, low-dose CT and dynamic image denoising. The proposed method consistently improves the TV-reconstructions using scalar parameters and the obtained parameter-maps adapt well to each imaging problem and data by leading to the preservation of detailed features. Although the choice of the regularization parameter-maps is data-driven and based on NNs, the proposed algorithm is entirely interpretable since it inherits the properties of the respective iterative reconstruction method from which the network is implicitly defined., Comment: 48 pages

Published
2023

8. NoSENSE: Learned Unrolled Cardiac MRI Reconstruction Without Explicit Sensitivity Maps

Author

Zimmermann, Felix Frederik, Kofler, Andreas, Goos, Gerhard, Founding Editor, Hartmanis, Juris, Founding Editor, Bertino, Elisa, Editorial Board Member, Gao, Wen, Editorial Board Member, Steffen, Bernhard, Editorial Board Member, Yung, Moti, Editorial Board Member, Camara, Oscar, editor, Puyol-Antón, Esther, editor, Sermesant, Maxime, editor, Suinesiaputra, Avan, editor, Tao, Qian, editor, Wang, Chengyan, editor, and Young, Alistair, editor

Published
2024
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10. Enhanced ultrafast X-ray diffraction by transient resonances

Author

Kuschel, Stephan, Ho, Phay J., Haddad, Andre Al, Zimmermann, Felix, Flueckiger, Leonie, Ware, Matthew R., Duris, Joseph, MacArthur, James P., Lutman, Alberto, Lin, Ming-Fu, Li, Xiang, Nakahara, Kazutaka, Aldrich, Jeff W., Walter, Peter, Young, Linda, Bostedt, Christoph, Marinelli, Agostino, and Gorkhover, Tais

Subjects
Physics - Optics, Physics - Atomic and Molecular Clusters, Physics - Atomic Physics
Abstract

Diffraction-before-destruction imaging with single ultrashort X-ray pulses has the potential to visualise non-equilibrium processes, such as chemical reactions, at the nanoscale with sub-femtosecond resolution in the native environment without the need of crystallization. Here, a nanospecimen partially diffracts a single X-ray flash before sample damage occurs. The structural information of the sample can be reconstructed from the coherent X-ray interference image. State-of-art spatial resolution of such snapshots from individual heavy element nanoparticles is limited to a few nanometers. Further improvement of spatial resolution requires higher image brightness which is ultimately limited by bleaching effects of the sample. We compared snapshots from individual 100 nm Xe nanoparticles as a function of the X-ray pulse duration and incoming X-ray intensity in the vicinity of the Xe M-shell resonance. Surprisingly, images recorded with few femtosecond and sub-femtosecond pulses are up to 10 times brighter than the static linear model predicts. Our Monte-Carlo simulation and statistical analysis of the entire data set confirms these findings and attributes the effect to transient resonances. Our simulation suggests that ultrafast form factor changes during the exposure can increase the brightness of X-ray images by several orders of magnitude. Our study guides the way towards imaging with unprecedented combination of spatial and temporal resolution at the nanoscale.

Published
2022

15. Structured light for ultrafast laser micro- and nanoprocessing

Author

Flamm, Daniel, Grossmann, Daniel Günther, Sailer, Marc, Kaiser, Myriam, Zimmermann, Felix, Chen, Keyou, Jenne, Michael, Kleiner, Jonas, Hellstern, Julian, Tillkorn, Christoph, Sutter, Dirk H, and Kumkar, Malte

Subjects
Physics - Optics, Physics - Applied Physics
Abstract

The industrial maturity of ultrashort pulsed lasers has triggered the development of a plethora of material processing strategies. Recently, the combination of these remarkable temporal pulse properties with advanced structured light concepts has led to breakthroughs in the development of novel laser application methods, which will now gradually reach industrial environments. We review the efficient generation of customized focus distributions from the near infrared down to the deep ultraviolet, e.g., based on non-diffracting beams and 3D-beam splitters, and demonstrate their impact for micro- and nanomachining of a wide range of materials. In the beam shaping concepts presented, special attention was paid to suitability for both high energies and high powers., Comment: Accepted manuscript, 19 pages, 20 figures and 111 references

Published
2020
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20. Beam shaping for ultrafast materials processing

Author

Flamm, Daniel, Grossmann, Daniel Günther, Jenne, Michael, Zimmermann, Felix, Kleiner, Jonas, Kaiser, Myriam, Hellstern, Julian, Tillkorn, Christoph, and Kumkar, Malte

Subjects
Physics - Optics, Physics - Applied Physics
Abstract

The remarkable temporal properties of ultra-short pulsed lasers in combination with novel beam shaping concepts enable the development of completely new material processing strategies. We demonstrate the benefit of employing focus distributions being tailored in all three spatial dimensions. As example advanced Bessel-like beam profiles, 3D-beam splitting concepts and flat-top focus distributions are used to achieve high-quality and efficient results for cutting, welding and drilling applications. Spatial and temporal in situ diagnostics is employed to analyze light-matter interaction and, in combination with flexible digital-holographic beam shaping techniques, to find the optimal beam shape for the respective laser application., Comment: Conference Presentation (Photonics West 2019), Review article, 17 pages, 16 figures

Published
2020
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26. Acknowledgments

Author

Aguilar Rodríguez, Jimena, primary, Alvarez Igarzábal, Federico, additional, Debus, Michael S., additional, Maughan, Curtis L., additional, Song, Su-Jin, additional, Vozaru, Miruna, additional, and Zimmermann, Felix, additional

Published
2022
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31. Contributors

Author

Aguilar Rodríguez, Jimena, primary, Alvarez Igarzábal, Federico, additional, Debus, Michael S., additional, Maughan, Curtis L., additional, Song, Su-Jin, additional, Vozaru, Miruna, additional, and Zimmermann, Felix, additional

Published
2022
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32. Frontmatter

Author

Aguilar Rodríguez, Jimena, primary, Alvarez Igarzábal, Federico, additional, Debus, Michael S., additional, Maughan, Curtis L., additional, Song, Su-Jin, additional, Vozaru, Miruna, additional, and Zimmermann, Felix, additional

Published
2022
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33. Table of Contents

Author

Aguilar Rodríguez, Jimena, primary, Alvarez Igarzábal, Federico, additional, Debus, Michael S., additional, Maughan, Curtis L., additional, Song, Su-Jin, additional, Vozaru, Miruna, additional, and Zimmermann, Felix, additional

Published
2022
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38. Demonstration of local teleportation using classical entanglement

Author

Guzman-Silva, Diego, Brüning, Robert, Zimmermann, Felix, Vetter, Christian, Gräfe, Markus, Heinrich, Matthias, Nolte, Stefan, Duparré, Michael, Aiello, Andrea, Ornigotti, Marco, and Szameit, Alexander

Subjects
Quantum Physics, Physics - Optics
Abstract

Teleportation is the most widely discussed application of the basic principles of quantum mechanics. Fundamentally, this process describes the transmission of information, which involves transport of neither matter nor energy. The implicit assumption, however, is that this scheme is of inherently nonlocal nature, and therefore exclusive to quantum systems. Here, we show that the concept can be readily generalized beyond the quantum realm. We present an optical implementation of the teleportation protocol solely based on classical entanglement between spatial and modal degrees of freedom, entirely independent of nonlocality. Our findings could enable novel methods for distributing information between different transmission channels and may provide the means to leverage the advantages of both quantum and classical systems to create a robust hybrid communication infrastructure.

Published
2015

39. Engineering a pure Dirac regime in ZrTe$_5$

Author

Jorge I. Facio, Elisabetta Nocerino, Ion Cosma Fulga, Rafal Wawrzynczak, Joanna Brown, Genda Gu, Qiang Li, Martin Mansson, Yasmine Sassa, Oleh Ivashko, Martin v. Zimmermann, Felix Mende, Johannes Gooth, Stanislaw Galeski, Jeroen van den Brink, Tobias Meng

Subjects
Physics, QC1-999
Abstract

Real-world topological semimetals typically exhibit Dirac and Weyl nodes that coexist with trivial Fermi pockets. This tends to mask the physics of the relativistic quasiparticles. Using the example of ZrTe$_5$, we show that strain provides a powerful tool for in-situ tuning of the band structure such that all trivial pockets are pushed far away from the Fermi energy, but only for a certain range of Van der Waals gaps. Our results naturally reconcile contradicting reports on the presence or absence of additional pockets in ZrTe$_5$, and provide a clear map of where to find a pure three-dimensional Dirac semimetallic phase in the structural parameter space of the material.

Published
2023
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42. Non-linear enhancement of ultrafast X-ray diffraction through transient resonances

Author

Gorkhover, Tais, primary, Kuschel, Stephan, additional, Ho, Phay, additional, Haddad, Andre Al, additional, Zimmermann, Felix, additional, Flückiger, Leonie, additional, Ware, Matthew, additional, Duris, Joseph, additional, MacArthur, James, additional, Lutman, Alberto, additional, Lin, Ming-Fu, additional, Li, Xiang, additional, Nakarara, K., additional, Aldrich, Jeff, additional, Walter, Peter, additional, Young, Linda, additional, Bostedt, Christoph, additional, and Marinelli, Agostino, additional

Published
2024
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