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18 results on '"Gröger, Fabian"'

1. Self-Supervised and Few-Shot Learning for Robust Bioaerosol Monitoring

Author

Willi, Adrian, Baumann, Pascal, Erb, Sophie, Gröger, Fabian, Zeder, Yanick, and Lionetti, Simone

Subjects
Computer Science - Machine Learning
Abstract

Real-time bioaerosol monitoring is improving the quality of life for people affected by allergies, but it often relies on deep-learning models which pose challenges for widespread adoption. These models are typically trained in a supervised fashion and require considerable effort to produce large amounts of annotated data, an effort that must be repeated for new particles, geographical regions, or measurement systems. In this work, we show that self-supervised learning and few-shot learning can be combined to classify holographic images of bioaerosol particles using a large collection of unlabelled data and only a few examples for each particle type. We first demonstrate that self-supervision on pictures of unidentified particles from ambient air measurements enhances identification even when labelled data is abundant. Most importantly, it greatly improves few-shot classification when only a handful of labelled images are available. Our findings suggest that real-time bioaerosol monitoring workflows can be substantially optimized, and the effort required to adapt models for different situations considerably reduced., Comment: Short communication, 8 pages, 2 figures, 1 table

Published
2024

2. Hyperbolic Metric Learning for Visual Outlier Detection

Author

Gonzalez-Jimenez, Alvaro, Lionetti, Simone, Bazazian, Dena, Gottfrois, Philippe, Gröger, Fabian, Pouly, Marc, and Navarini, Alexander

Subjects
Computer Science - Computer Vision and Pattern Recognition
Abstract

Out-Of-Distribution (OOD) detection is critical to deploy deep learning models in safety-critical applications. However, the inherent hierarchical concept structure of visual data, which is instrumental to OOD detection, is often poorly captured by conventional methods based on Euclidean geometry. This work proposes a metric framework that leverages the strengths of Hyperbolic geometry for OOD detection. Inspired by previous works that refine the decision boundary for OOD data with synthetic outliers, we extend this method to Hyperbolic space. Interestingly, we find that synthetic outliers do not benefit OOD detection in Hyperbolic space as they do in Euclidean space. Furthermore we explore the relationship between OOD detection performance and Hyperbolic embedding dimension, addressing practical concerns in resource-constrained environments. Extensive experiments show that our framework improves the FPR95 for OOD detection from 22\% to 15\% and from 49% to 28% on CIFAR-10 and CIFAR-100 respectively compared to Euclidean methods., Comment: European Conference on Computer Vision ECCV 2024 BEW Workshop

Published
2024

3. Towards Reliable Dermatology Evaluation Benchmarks

Author

Gröger, Fabian, Lionetti, Simone, Gottfrois, Philippe, Gonzalez-Jimenez, Alvaro, Groh, Matthew, Daneshjou, Roxana, Consortium, Labelling, Navarini, Alexander A., and Pouly, Marc

Subjects
Computer Science - Computer Vision and Pattern Recognition, Computer Science - Artificial Intelligence
Abstract

Benchmark datasets for digital dermatology unwittingly contain inaccuracies that reduce trust in model performance estimates. We propose a resource-efficient data-cleaning protocol to identify issues that escaped previous curation. The protocol leverages an existing algorithmic cleaning strategy and is followed by a confirmation process terminated by an intuitive stopping criterion. Based on confirmation by multiple dermatologists, we remove irrelevant samples and near duplicates and estimate the percentage of label errors in six dermatology image datasets for model evaluation promoted by the International Skin Imaging Collaboration. Along with this paper, we publish revised file lists for each dataset which should be used for model evaluation. Our work paves the way for more trustworthy performance assessment in digital dermatology., Comment: Link to the revised file lists: https://github.com/Digital-Dermatology/SelfClean-Revised-Benchmarks

Published
2023

4. Assessing Guest Nationality Composition from Hotel Reviews

Author

Gröger, Fabian, Pouly, Marc, Tinner, Flavia, and Brandes, Leif

Subjects
Computer Science - Computation and Language, Computer Science - Machine Learning
Abstract

Many hotels target guest acquisition efforts to specific markets in order to best anticipate individual preferences and needs of their guests. Likewise, such strategic positioning is a prerequisite for efficient marketing budget allocation. Official statistics report on the number of visitors from different countries, but no fine-grained information on the guest composition of individual businesses exists. There is, however, growing interest in such data from competitors, suppliers, researchers and the general public. We demonstrate how machine learning can be leveraged to extract references to guest nationalities from unstructured text reviews in order to dynamically assess and monitor the dynamics of guest composition of individual businesses. In particular, we show that a rather simple architecture of pre-trained embeddings and stacked LSTM layers provides a better performance-runtime tradeoff than more complex state-of-the-art language models.

Published
2023

5. Robust T-Loss for Medical Image Segmentation

Author

Gonzalez-Jimenez, Alvaro, Lionetti, Simone, Gottfrois, Philippe, Gröger, Fabian, Pouly, Marc, and Navarini, Alexander

Subjects
Computer Science - Computer Vision and Pattern Recognition
Abstract

This paper presents a new robust loss function, the T-Loss, for medical image segmentation. The proposed loss is based on the negative log-likelihood of the Student-t distribution and can effectively handle outliers in the data by controlling its sensitivity with a single parameter. This parameter is updated during the backpropagation process, eliminating the need for additional computation or prior information about the level and spread of noisy labels. Our experiments show that the T-Loss outperforms traditional loss functions in terms of dice scores on two public medical datasets for skin lesion and lung segmentation. We also demonstrate the ability of T-Loss to handle different types of simulated label noise, resembling human error. Our results provide strong evidence that the T-Loss is a promising alternative for medical image segmentation where high levels of noise or outliers in the dataset are a typical phenomenon in practice. The project website can be found at https://robust-tloss.github.io, Comment: Early accepted to MICCAI 2023

Published
2023

6. SelfClean: A Self-Supervised Data Cleaning Strategy

Author

Gröger, Fabian, Lionetti, Simone, Gottfrois, Philippe, Gonzalez-Jimenez, Alvaro, Amruthalingam, Ludovic, Consortium, Labelling, Groh, Matthew, Navarini, Alexander A., and Pouly, Marc

Subjects
Computer Science - Computer Vision and Pattern Recognition
Abstract

Most benchmark datasets for computer vision contain irrelevant images, near duplicates, and label errors. Consequently, model performance on these benchmarks may not be an accurate estimate of generalization capabilities. This is a particularly acute concern in computer vision for medicine where datasets are typically small, stakes are high, and annotation processes are expensive and error-prone. In this paper we propose SelfClean, a general procedure to clean up image datasets exploiting a latent space learned with self-supervision. By relying on self-supervised learning, our approach focuses on intrinsic properties of the data and avoids annotation biases. We formulate dataset cleaning as either a set of ranking problems, which significantly reduce human annotation effort, or a set of scoring problems, which enable fully automated decisions based on score distributions. We demonstrate that SelfClean achieves state-of-the-art performance in detecting irrelevant images, near duplicates, and label errors within popular computer vision benchmarks, retrieving both injected synthetic noise and natural contamination. In addition, we apply our method to multiple image datasets and confirm an improvement in evaluation reliability.

Published
2023

7. PASSION for Dermatology: Bridging the Diversity Gap with Pigmented Skin Images from Sub-Saharan Africa

Author

Gottfrois, Philippe, Gröger, Fabian, Andriambololoniaina, Faly Herizo, Amruthalingam, Ludovic, Gonzalez-Jimenez, Alvaro, Hsu, Christophe, Kessy, Agnes, Lionetti, Simone, Mavura, Daudi, Ng’ambi, Wingston, Ngongonda, Dingase Faith, Pouly, Marc, Rakotoarisaona, Mendrika Fifaliana, Rapelanoro Rabenja, Fahafahantsoa, Traoré, Ibrahima, Navarini, Alexander A., Goos, Gerhard, Series 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, Linguraru, Marius George, editor, Dou, Qi, editor, Feragen, Aasa, editor, Giannarou, Stamatia, editor, Glocker, Ben, editor, Lekadir, Karim, editor, and Schnabel, Julia A., editor

Published
2024
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8. STRUDEL: Self-Training with Uncertainty Dependent Label Refinement across Domains

Author

Gröger, Fabian, Rickmann, Anne-Marie, and Wachinger, Christian

Subjects
Computer Science - Computer Vision and Pattern Recognition
Abstract

We propose an unsupervised domain adaptation (UDA) approach for white matter hyperintensity (WMH) segmentation, which uses Self-Training with Uncertainty DEpendent Label refinement (STRUDEL). Self-training has recently been introduced as a highly effective method for UDA, which is based on self-generated pseudo labels. However, pseudo labels can be very noisy and therefore deteriorate model performance. We propose to predict the uncertainty of pseudo labels and integrate it in the training process with an uncertainty-guided loss function to highlight labels with high certainty. STRUDEL is further improved by incorporating the segmentation output of an existing method in the pseudo label generation that showed high robustness for WMH segmentation. In our experiments, we evaluate STRUDEL with a standard U-Net and a modified network with a higher receptive field. Our results on WMH segmentation across datasets demonstrate the significant improvement of STRUDEL with respect to standard self-training., Comment: accepted at Machine Learning in Medical Imaging (MLMI 2021)

Published
2021

9. Multi-Coil MRI Reconstruction Challenge -- Assessing Brain MRI Reconstruction Models and their Generalizability to Varying Coil Configurations

Author

Beauferris, Youssef, Teuwen, Jonas, Karkalousos, Dimitrios, Moriakov, Nikita, Caan, Mattha, Yiasemis, George, Rodrigues, Lívia, Lopes, Alexandre, Pedrini, Hélio, Rittner, Letícia, Dannecker, Maik, Studenyak, Viktor, Gröger, Fabian, Vyas, Devendra, Faghih-Roohi, Shahrooz, Jethi, Amrit Kumar, Raju, Jaya Chandra, Sivaprakasam, Mohanasankar, Lasby, Mike, Nogovitsyn, Nikita, Loos, Wallace, Frayne, Richard, and Souza, Roberto

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

Deep-learning-based brain magnetic resonance imaging (MRI) reconstruction methods have the potential to accelerate the MRI acquisition process. Nevertheless, the scientific community lacks appropriate benchmarks to assess MRI reconstruction quality of high-resolution brain images, and evaluate how these proposed algorithms will behave in the presence of small, but expected data distribution shifts. The Multi-Coil Magnetic Resonance Image (MC-MRI) Reconstruction Challenge provides a benchmark that aims at addressing these issues, using a large dataset of high-resolution, three-dimensional, T1-weighted MRI scans. The challenge has two primary goals: 1) to compare different MRI reconstruction models on this dataset and 2) to assess the generalizability of these models to data acquired with a different number of receiver coils. In this paper, we describe the challenge experimental design, and summarize the results of a set of baseline and state of the art brain MRI reconstruction models. We provide relevant comparative information on the current MRI reconstruction state-of-the-art and highlight the challenges of obtaining generalizable models that are required prior to broader clinical adoption. The MC-MRI benchmark data, evaluation code and current challenge leaderboard are publicly available. They provide an objective performance assessment for future developments in the field of brain MRI reconstruction.

Published
2020

12. BenG -Entwicklung einer Methodik und Aufbau eines Benchmarks zur vergleichbaren Bewertung der Energie- und Ressourceneffizienz von Galvanikbetrieben

Author

Köse, Ekrem, Lampret, Verena, Kölle, Stefan, and Gröger, Fabian

Abstract

Im Projekt „Benchmark Galvanotechnik“ (BenG) wurde ein Energie- und Ressourceneffizienz Benchmark für die Galvanikbranche methodisch entwickelt und aufgebaut. Mit vielen Unternehmen aus unterschiedlichen Verfahrensklassen und Unternehmensgrößen wurden die Energieverbräuche und der Ressourceneinsatz sowohl auf Unternehmens, als auch zum Teil auf Linienebne ermittelt, aufbereitet und ein quantifizierbarer Vergleich realisiert. In relevanten und aussagekräftigen Kennzahlen konnten die teilnehmenden Unternehmen aus der Galvanobranche miteinander verglichen werden. Daraus konnten zum Teil Maßnahmen abgeleitet werden, wie Blockheizkraftwerke (BHKWs), Erneuerung von älteren Becken, PV-Anlagen, die nutzenbringend von einer Vielzahl von Unternehmen umgesetzt werden könnten, um die Energie- und Ressourceneffizienz zu erhöhen und zeitgleich den CO2-Fußabdruck zu reduzieren. Durch einen Bericht in der Zeitschrift Womag, durch Newsletter des Zentralverband Oberflächentechnik, und durch die Homepage des Fraunhofer IPA wurden ins Summe über 1.000 Galvanikbetriebe erreicht und auf die Teilnahme am Benchmark und den damit verbundenen Fragebogen aufmerksam gemacht. Den Fragebogen haben schlussendlich 17 Standorte ausgefüllt. Bei der Erhebung des Benchmarks wurde darauf geachtet den Fragebogen so nutzerfreundlich und prägnant und nichtsdestotrotz die Abfragen so detailreich wie möglich zu gestalten. Jedoch konnten viele Unternehmen aufgrund des weiterhin hohen Detaillierungsgrads und des fehlenden Messequipments den Fragenbogen nicht oder nur teilweise ausfüllen. Der Benchmark sollte gestaltet werden, um die Aussagekraft für weitere Verfahren zu erhöhen. In einigen Verfahrensklassen haben lediglich ein bis zwei Unternehmen teilgenommen. Im Falle einer breiten Teilnahmen weiterer Unternehmen, könnte der Handlungsdruck von Unternehmen, die im beim Benchmark im Vergleich zu anderen Unternehmen einen vergleichsweise hohen Verbrauch aufweisen, erhöht werden zukünftig ebenfalls Effizienzmaßnahmen zu identifizieren und umzusetzen. Dazu wird empfohlen den Fragebogen und die Abfrage zu digitalisieren und die Auswertung zu automatisieren. Zudem sollte die Datengrundlage auf Linienebene verfeinert und ebenso erhöht werden. Insbesondere auf Linienebne können die meisten Maßnahmen zur Steigerung der Energie- und Ressourceneffizienz abgeleitet werden. Hierzu sind unter Umständen begleitende und geförderte Messkampagnen notwendig, um Aufwand und Ertrag für Unternehmen im Rahmen zu halten.

Published
2023
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13. Self-Supervised Pre-Training for Digital Dermatology & Data-Centric Approach to Medical Imaging

Author

Gröger, Fabian and Gröger, Fabian

Abstract

Training supervised models requires large amounts of labelled data, whose creation is often expensive and time-consuming, especially in the medical domain. The standard practice to mitigate the lack of annotated medical images is to use transfer learning and fine-tune supervised pre-trained ImageNet weights on a downstream task. While this approach achieves satisfactory performance, it still requires a large dataset to adjust the global features for a specific task. Another way to tackle data scarcity in the medical field is by simplifying the data collection process and ordering health workers to document skin conditions. However, this approach usually leads to image collections containing contaminations such as irrelevant samples, duplicates and label errors since this is in stark contrast to prior practice where experts collected samples in standardised conditions.This thesis aims to contribute to the research landscape of deep learning in combination with digital dermatology by producing three scientific articles in the domains of self-supervised learning and dataset cleaning. The first subproject, termed Self-supervised pre-training for dermatological imaging, investigated the possible benefits of using domain-specific self-supervised pre-training for digital dermatology by comparing them against supervised and self-supervised general-purpose pre-training. The second subproject, termed Data-centric approach to medical imaging, introduced a novel semi-automatic data cleaning strategy which can detect various dataset contaminations.The results of the first subproject indicated a clear benefit in using domain-specific self-supervised pre-trained features in terms of reducing the need for annotated samples and increasing linear, kNN and fine-tuning performance for classification and segmentation tasks. Further, a qualitative evaluation revealed that domain-specific pre-training learned more favourable properties for applications in dermatology since it included bot, + ID der Publikation: hslu_96620 + Art des Beitrages: Master-/Lizentiats-/Diplomarbeit + Name der Universität / Institution inkl. Ort: Lucerne University of Applied Sciences and Arts, Rotkreuz + Land der Universität / Institution: Switzerland + Sprache: Englisch + Letzte Aktualisierung: 2024-05-02 12:45:21

Published
2023

14. Multi-Coil MRI Reconstruction Challenge—Assessing Brain MRI Reconstruction Models and Their Generalizability to Varying Coil Configurations

Author

Beauferris, Youssef, Teuwen, Jonas, Karkalousos, Dimitrios, Moriakov, Nikita, Caan, Matthan, Yiasemis, George, Rodrigues, L. via, Lopes, Alexandre, Pedrini, Helio, Rittner, Letícia, Dannecker, Maik, Studenyak, Viktor, Gröger, Fabian, Vyas, Devendra, Faghih-Roohi, Shahrooz, Kumar Jethi, Amrit, Chandra Raju, Jaya, Sivaprakasam, Mohanasankar, Lasby, Mike, Nogovitsyn, Nikita, Loos, Wallace, Frayne, Richard, Souza, Roberto, Biomedical Engineering and Physics, Graduate School, ANS - Brain Imaging, APH - Methodology, and APH - Aging & Later Life

Subjects
benchmark, machine learning, magnetic resonance imaging (MRI), inverse problems, General Neuroscience, brain imaging, image reconstruction, Women's cancers Radboud Institute for Health Sciences [Radboudumc 17]
Abstract

Contains fulltext : 283300.pdf (Publisher’s version ) (Open Access) Deep-learning-based brain magnetic resonance imaging (MRI) reconstruction methods have the potential to accelerate the MRI acquisition process. Nevertheless, the scientific community lacks appropriate benchmarks to assess the MRI reconstruction quality of high-resolution brain images, and evaluate how these proposed algorithms will behave in the presence of small, but expected data distribution shifts. The multi-coil MRI (MC-MRI) reconstruction challenge provides a benchmark that aims at addressing these issues, using a large dataset of high-resolution, three-dimensional, T1-weighted MRI scans. The challenge has two primary goals: (1) to compare different MRI reconstruction models on this dataset and (2) to assess the generalizability of these models to data acquired with a different number of receiver coils. In this paper, we describe the challenge experimental design and summarize the results of a set of baseline and state-of-the-art brain MRI reconstruction models. We provide relevant comparative information on the current MRI reconstruction state-of-the-art and highlight the challenges of obtaining generalizable models that are required prior to broader clinical adoption. The MC-MRI benchmark data, evaluation code, and current challenge leaderboard are publicly available. They provide an objective performance assessment for future developments in the field of brain MRI reconstruction.

Published
2022

16. Self-Supervised Pre-Training for Texture Segmentation and Diagnosis in Dermatology

Author

Pouly, Marc, Gottfrois, Philippe, Huber, Johannes, Gröger, Fabian, Pouly, Marc, Gottfrois, Philippe, Huber, Johannes, and Gröger, Fabian

Abstract

Training supervised models requires large amounts of labelled data, whose creation is often expensive and time-consuming, especially in the medical domain.The standard practice to mitigate the lack of annotated medical images is to use transfer learning and fine-tune supervised pre-trained ImageNet weights on a downstream task.While this approach achieves satisfactory performance, it still requires a large dataset to adjust the global features for a specific task.Additionally, this approach has been criticised in recent literature since the features learned using natural images might not be optimal to represent the medical domain.This project aims to evaluate one of the most prominent approaches for obtaining domain-specific pre-trained models without the need for labelled data called self-supervised learning (SSL) for the application in dermatology.More concretely, this project compares the performance of five different SSL methods, namely ColorMe, SimCLR, BYOL, DINO, and iBOT, to a supervised pre-trained ImageNet model.For the comparison, six different downstream tasks were defined, consisting of open-source and private as well as classification and segmentation tasks, namely Fitzpatrick17k, PAD-UFES-20, HAM10000, ISIC 2018 Task 1, body localisation and PPP segmentation.For pre-training the SSL methods, the university hospital of Basel has made a large collection of 250'000 dermatology images available.Five models were trained using the pre-training dataset with different SSL methods.After pre-training, the models were compared in terms of linear, fine-tuned and kNN performance.The results from all three evaluations showed that pre-trained features from iBOT outperformed all the other SSL methods and, in five tasks of six tasks, also supervised ImageNet pre-training.Further, for multiple downstream tasks, the best performing pre-trained model reduces the number of parameters by a magnitude of four compared to the supervised pre-trained model.The findings of this p, + ID der Publikation: hslu_91338 + Art des Beitrages: Bericht + Sprache: Englisch + Letzte Aktualisierung: 2024-04-18 10:59:20

Published
2022

18. Detecting Prejudice and Bias in Hotel Reviews

Author

Gröger, Fabian

Subjects
hate speech, prejudice detection, hate speech detection, transformers, prejudice, NLP
Abstract

The amount of prejudice and hate speech found online is increasing rapidly and is not expected to slow down soon. Such harmful statements can be found anywhere, from social media posts to reviews. Being exposed to such prejudice can lead to serious societal problems. Currently, online platforms heavily rely on human content moderation to mitigate this problem. However, depending on individuals to moderate this ever-growing load of online content is not feasible. Thus these platforms look to machine learning to develop a solution that helps them address these problems. This project aims to detect prejudicial statements in hotel reviews that refer to a nationality. For this purpose, a dataset of 1.1M hotel reviews was given. However, since the data does not include any labels or indications if a review contains a prejudiced statement, it can not be used directly to train a supervised classifier. A pipeline was designed to detect prejudiced reviews by breaking the overall task into smaller sub-tasks. This workflow first checks if a review contains any nationality reference using a Bi-LSTM model, trained on a supervised nationality detection dataset and achieved a validation and test F1 score of around 90%. Then a model decides if a review contains any form of hateful statements, which is done by fine-tuning a large language model (LM) on hate speech detection challenges, such as GermEval 2018, HASOC 2019 and GermEval 2021. To increase the performance on these hate speech datasets and improve the generalization to the hotel domain, a domain-specific LM was trained on the hotel review dataset, called HotelBERT. The fine-tuned HotelBERT model performed better than the challenge winner in two out of three instances. The resulting pipeline indicated that it might be able to detect harmful statements at the intersection of hate speech and prejudice. However, to thoroughly evaluate its performance, a labeled prejudice dataset would be needed, which is not available at the time of writing. The task of prejudice detection is hard to model because it is highly subjective and thus, getting a high-quality dataset is challenging. However, the task can be broken down into sub-tasks with existing datasets to better model the problem without relying too much on an annotated prejudice dataset., + ID der Publikation: hslu_88678 + Art des Beitrages: Bericht + Sprache: Deutsch + Letzte Aktualisierung: 2022-09-13 09:55:33

Published
2021
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