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25 results on '"Goschenhofer, Jann"'

1. Approximately Bayes-Optimal Pseudo Label Selection

Author

Rodemann, Julian, Goschenhofer, Jann, Dorigatti, Emilio, Nagler, Thomas, and Augustin, Thomas

Subjects
Statistics - Machine Learning, Computer Science - Artificial Intelligence, Computer Science - Machine Learning, Statistics - Methodology
Abstract

Semi-supervised learning by self-training heavily relies on pseudo-label selection (PLS). The selection often depends on the initial model fit on labeled data. Early overfitting might thus be propagated to the final model by selecting instances with overconfident but erroneous predictions, often referred to as confirmation bias. This paper introduces BPLS, a Bayesian framework for PLS that aims to mitigate this issue. At its core lies a criterion for selecting instances to label: an analytical approximation of the posterior predictive of pseudo-samples. We derive this selection criterion by proving Bayes optimality of the posterior predictive of pseudo-samples. We further overcome computational hurdles by approximating the criterion analytically. Its relation to the marginal likelihood allows us to come up with an approximation based on Laplace's method and the Gaussian integral. We empirically assess BPLS for parametric generalized linear and non-parametric generalized additive models on simulated and real-world data. When faced with high-dimensional data prone to overfitting, BPLS outperforms traditional PLS methods., Comment: UAI 2023

Published
2023

2. Multimodal Deep Learning

Author

Akkus, Cem, Chu, Luyang, Djakovic, Vladana, Jauch-Walser, Steffen, Koch, Philipp, Loss, Giacomo, Marquardt, Christopher, Moldovan, Marco, Sauter, Nadja, Schneider, Maximilian, Schulte, Rickmer, Urbanczyk, Karol, Goschenhofer, Jann, Heumann, Christian, Hvingelby, Rasmus, Schalk, Daniel, and Aßenmacher, Matthias

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

This book is the result of a seminar in which we reviewed multimodal approaches and attempted to create a solid overview of the field, starting with the current state-of-the-art approaches in the two subfields of Deep Learning individually. Further, modeling frameworks are discussed where one modality is transformed into the other, as well as models in which one modality is utilized to enhance representation learning for the other. To conclude the second part, architectures with a focus on handling both modalities simultaneously are introduced. Finally, we also cover other modalities as well as general-purpose multi-modal models, which are able to handle different tasks on different modalities within one unified architecture. One interesting application (Generative Art) eventually caps off this booklet.

Published
2023

3. Learning with Limited Labelled Data

Author

Loeffler, Christoffer, Hvingelby, Rasmus, Goschenhofer, Jann, Mutschler, Christopher, editor, Münzenmayer, Christian, editor, Uhlmann, Norman, editor, and Martin, Alexander, editor

Published
2024
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4. Uncertainty-aware Pseudo-label Selection for Positive-Unlabeled Learning

Author

Dorigatti, Emilio, Goschenhofer, Jann, Schubert, Benjamin, Rezaei, Mina, and Bischl, Bernd

Subjects
Statistics - Machine Learning, Computer Science - Machine Learning
Abstract

Positive-unlabeled learning (PUL) aims at learning a binary classifier from only positive and unlabeled training data. Even though real-world applications often involve imbalanced datasets where the majority of examples belong to one class, most contemporary approaches to PUL do not investigate performance in this setting, thus severely limiting their applicability in practice. In this work, we thus propose to tackle the issues of imbalanced datasets and model calibration in a PUL setting through an uncertainty-aware pseudo-labeling procedure (PUUPL): by boosting the signal from the minority class, pseudo-labeling expands the labeled dataset with new samples from the unlabeled set, while explicit uncertainty quantification prevents the emergence of harmful confirmation bias leading to increased predictive performance. Within a series of experiments, PUUPL yields substantial performance gains in highly imbalanced settings while also showing strong performance in balanced PU scenarios across recent baselines. We furthermore provide ablations and sensitivity analyses to shed light on PUUPL's several ingredients. Finally, a real-world application with an imbalanced dataset confirms the advantage of our approach., Comment: 25 pages, 4 figures

Published
2022

5. Deep Semi-Supervised Learning for Time Series Classification

Author

Goschenhofer, Jann, Hvingelby, Rasmus, Rügamer, David, Thomas, Janek, Wagner, Moritz, and Bischl, Bernd

Subjects
Computer Science - Machine Learning
Abstract

While Semi-supervised learning has gained much attention in computer vision on image data, yet limited research exists on its applicability in the time series domain. In this work, we investigate the transferability of state-of-the-art deep semi-supervised models from image to time series classification. We discuss the necessary model adaptations, in particular an appropriate model backbone architecture and the use of tailored data augmentation strategies. Based on these adaptations, we explore the potential of deep semi-supervised learning in the context of time series classification by evaluating our methods on large public time series classification problems with varying amounts of labelled samples. We perform extensive comparisons under a decidedly realistic and appropriate evaluation scheme with a unified reimplementation of all algorithms considered, which is yet lacking in the field. We find that these transferred semi-supervised models show significant performance gains over strong supervised, semi-supervised and self-supervised alternatives, especially for scenarios with very few labelled samples.

Published
2021
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6. Deep Semi-supervised Learning for Time-Series Classification

Author

Goschenhofer, Jann, Kacprzyk, Janusz, Series Editor, Pal, Nikhil R., Advisory Editor, Bello Perez, Rafael, Advisory Editor, Corchado, Emilio S., Advisory Editor, Hagras, Hani, Advisory Editor, Kóczy, László T., Advisory Editor, Kreinovich, Vladik, Advisory Editor, Lin, Chin-Teng, Advisory Editor, Lu, Jie, Advisory Editor, Melin, Patricia, Advisory Editor, Nedjah, Nadia, Advisory Editor, Nguyen, Ngoc Thanh, Advisory Editor, Wang, Jun, Advisory Editor, Wani, M. Arif, editor, and Palade, Vasile, editor

Published
2023
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7. Granular Motor State Monitoring of Free Living Parkinson's Disease Patients via Deep Learning

Author

Yuksel, Kamer A., Goschenhofer, Jann, Varma, Hridya V., Fietzek, Urban, and Pfister, Franz M. J.

Subjects
Statistics - Applications, Computer Science - Machine Learning, Electrical Engineering and Systems Science - Image and Video Processing
Abstract

Parkinson's disease (PD) is the second most common neurodegenerative disease worldwide and affects around 1% of the (60+ years old) elderly population in industrial nations. More than 80% of PD patients suffer from motor symptoms, which could be well addressed if a personalized medication schedule and dosage could be administered to them. However, such personalized medication schedule requires a continuous, objective and precise measurement of motor symptoms experienced by the patients during their regular daily activities. In this work, we propose the use of a wrist-worn smart-watch, which is equipped with 3D motion sensors, for estimating the motor fluctuation severity of PD patients in a free-living environment. We introduce a novel network architecture, a post-training scheme and a custom loss function that accounts for label noise to improve the results of our previous work in this domain and to establish a novel benchmark for nine-level PD motor state estimation., Comment: Machine Learning for Health (ML4H) at NeurIPS 2019 -- Extended Abstract

Published
2019

8. Wearable-based Parkinson's Disease Severity Monitoring using Deep Learning

Author

Goschenhofer, Jann, Pfister, Franz MJ, Yuksel, Kamer Ali, Bischl, Bernd, Fietzek, Urban, and Thomas, Janek

Subjects
Computer Science - Machine Learning, Statistics - Applications, Statistics - Machine Learning
Abstract

One major challenge in the medication of Parkinson's disease is that the severity of the disease, reflected in the patients' motor state, cannot be measured using accessible biomarkers. Therefore, we develop and examine a variety of statistical models to detect the motor state of such patients based on sensor data from a wearable device. We find that deep learning models consistently outperform a classical machine learning model applied on hand-crafted features in this time series classification task. Furthermore, our results suggest that treating this problem as a regression instead of an ordinal regression or a classification task is most appropriate. For consistent model evaluation and training, we adopt the leave-one-subject-out validation scheme to the training of deep learning models. We also employ a class-weighting scheme to successfully mitigate the problem of high multi-class imbalances in this domain. In addition, we propose a customized performance measure that reflects the requirements of the involved medical staff on the model. To solve the problem of limited availability of high quality training data, we propose a transfer learning technique which helps to improve model performance substantially. Our results suggest that deep learning techniques offer a high potential to autonomously detect motor states of patients with Parkinson's disease.

Published
2019

9. Robust Colon Tissue Cartography with Semi-Supervision

Author

Dexl Jakob, Benz Michaela, Kuritcyn Petr, Wittenberg Thomas, Bruns Volker, Geppert Carol, Hartmann Arndt, Bischl Bernd, and Goschenhofer Jann

Subjects
computational pathology, semi-supervised learning, colon cancer, model robustness, Medicine
Abstract

We explore the task of tissue classification for colon cancer histology in a low label regime comparing a semi-supervised and a supervised learning strategy in a series of experiments. Further, we investigate the model robustness w.r.t. distribution shifts in the unlabeled data and domain shifts across different scanners to prove their practicality in a histology context. By utilizing unlabeled data in addition to nl = 1000 labeled tiles per class, we yield a substantial increase in accuracy from 89.9% to 91.4%.

Published
2022
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11. Wearable-Based Parkinson’s Disease Severity Monitoring Using Deep Learning

Author

Goschenhofer, Jann, Pfister, Franz M. J., Yuksel, Kamer Ali, Bischl, Bernd, Fietzek, Urban, Thomas, Janek, Goos, Gerhard, Founding Editor, Hartmanis, Juris, Founding Editor, Bertino, Elisa, Editorial Board Member, Gao, Wen, Editorial Board Member, Steffen, Bernhard, Editorial Board Member, Woeginger, Gerhard, Editorial Board Member, Yung, Moti, Editorial Board Member, Brefeld, Ulf, editor, Fromont, Elisa, editor, Hotho, Andreas, editor, Knobbe, Arno, editor, Maathuis, Marloes, editor, and Robardet, Céline, editor

Published
2020
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15. Developing better digital health measures of Parkinson's disease using free living data and a crowdsourced data analysis challenge.

Author

BEAT-PD, DREAM Challenge Consortium [collaborator], Luxembourg Centre for Systems Biomedicine (LCSB): Biomedical Data Science (Glaab Group) [research center], Fonds National de la Recherche - FnR [sponsor], Sieberts, Solveig K., Borzymowski, Henryk, Guan, Yuanfang, Huang, Yidi, Matzner, Ayala, Page, Alex, Bar-Gad, Izhar, Beaulieu-Jones, Brett, El-Hanani, Yuval, Goschenhofer, Jann, Javidnia, Monica, Keller, Mark S., Li, Yan-Chak, Saqib, Mohammed, Smith, Greta, Stanescu, Ana, Venuto, Charles S., Zielinski, Robert, Glaab, Enrico, Jayaraman, Arun, Evers, Luc J. W., Foschini, Luca, Mariakakis, Alex, Pandey, Gaurav, Shawen, Nicholas, Synder, Phil, Omberg, Larsson, BEAT-PD, DREAM Challenge Consortium [collaborator], Luxembourg Centre for Systems Biomedicine (LCSB): Biomedical Data Science (Glaab Group) [research center], Fonds National de la Recherche - FnR [sponsor], Sieberts, Solveig K., Borzymowski, Henryk, Guan, Yuanfang, Huang, Yidi, Matzner, Ayala, Page, Alex, Bar-Gad, Izhar, Beaulieu-Jones, Brett, El-Hanani, Yuval, Goschenhofer, Jann, Javidnia, Monica, Keller, Mark S., Li, Yan-Chak, Saqib, Mohammed, Smith, Greta, Stanescu, Ana, Venuto, Charles S., Zielinski, Robert, Glaab, Enrico, Jayaraman, Arun, Evers, Luc J. W., Foschini, Luca, Mariakakis, Alex, Pandey, Gaurav, Shawen, Nicholas, Synder, Phil, and Omberg, Larsson

Abstract

One of the promising opportunities of digital health is its potential to lead to more holistic understandings of diseases by interacting with the daily life of patients and through the collection of large amounts of real-world data. Validating and benchmarking indicators of disease severity in the home setting is difficult, however, given the large number of confounders present in the real world and the challenges in collecting ground truth data in the home. Here we leverage two datasets collected from patients with Parkinson's disease, which couples continuous wrist-worn accelerometer data with frequent symptom reports in the home setting, to develop digital biomarkers of symptom severity. Using these data, we performed a public benchmarking challenge in which participants were asked to build measures of severity across 3 symptoms (on/off medication, dyskinesia, and tremor). 42 teams participated and performance was improved over baseline models for each subchallenge. Additional ensemble modeling across submissions further improved performance, and the top models validated in a subset of patients whose symptoms were observed and rated by trained clinicians.

Published
2023

16. ConstraintMatch for Semi-constrained Clustering

Author

Goschenhofer, Jann, Bischl, Bernd, Kira, Zsolt, Goschenhofer, Jann, Bischl, Bernd, and Kira, Zsolt

Abstract

Constrained clustering allows the training of classification models using pairwise constraints only, which are weak and relatively easy to mine, while still yielding full-supervision-level model performance. While they perform well even in the absence of the true underlying class labels, constrained clustering models still require large amounts of binary constraint annotations for training. In this paper, we propose a semi-supervised context whereby a large amount of \textit{unconstrained} data is available alongside a smaller set of constraints, and propose \textit{ConstraintMatch} to leverage such unconstrained data. While a great deal of progress has been made in semi-supervised learning using full labels, there are a number of challenges that prevent a naive application of the resulting methods in the constraint-based label setting. Therefore, we reason about and analyze these challenges, specifically 1) proposing a \textit{pseudo-constraining} mechanism to overcome the confirmation bias, a major weakness of pseudo-labeling, 2) developing new methods for pseudo-labeling towards the selection of \textit{informative} unconstrained samples, 3) showing that this also allows the use of pairwise loss functions for the initial and auxiliary losses which facilitates semi-constrained model training. In extensive experiments, we demonstrate the effectiveness of ConstraintMatch over relevant baselines in both the regular clustering and overclustering scenarios on five challenging benchmarks and provide analyses of its several components.

Published
2023

18. Developing better digital health measures of Parkinson's disease using free living data and a crowdsourced data analysis challenge.

Author

Sieberts, Solveig K., Borzymowski, Henryk, Guan, Yuanfang, Huang, Yidi, Matzner, Ayala, Page, Alex, Bar-Gad, Izhar, Beaulieu-Jones, Brett, El-Hanani, Yuval, Goschenhofer, Jann, Javidnia, Monica, Keller, Mark S., Li, Yan-chak, Saqib, Mohammed, Smith, Greta, Stanescu, Ana, Venuto, Charles S., Zielinski, Robert, Jayaraman, Arun, and Evers, Luc J. W.

Published
2023
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19. Positive-Unlabeled Learning with Uncertainty-aware Pseudo-label Selection

Author

Dorigatti, Emilio, Goschenhofer, Jann, Schubert, Benjamin, Rezaei, Mina, and Bischl, Bernd

Subjects
FOS: Computer and information sciences, Computer Science - Machine Learning, Statistics - Machine Learning, Machine Learning (stat.ML), Machine Learning (cs.LG)
Abstract

Positive-unlabeled (PU) learning aims at learning a binary classifier from only positive and unlabeled training data. Recent approaches addressed this problem via cost-sensitive learning by developing unbiased loss functions, and their performance was later improved by iterative pseudo-labeling solutions. However, such two-step procedures are vulnerable to incorrectly estimated pseudo-labels, as errors are propagated in later iterations when a new model is trained on erroneous predictions. To prevent such confirmation bias, we propose PUUPL, a novel loss-agnostic training procedure for PU learning that incorporates epistemic uncertainty in pseudo-label selection. By using an ensemble of neural networks and assigning pseudo-labels based on low-uncertainty predictions, we show that PUUPL improves the reliability of pseudo-labels, increasing the predictive performance of our method and leading to new state-of-the-art results in self-training for PU learning. With extensive experiments, we show the effectiveness of our method over different datasets, modalities, and learning tasks, as well as improved calibration, robustness over prior misspecifications, biased positive data, and imbalanced datasets., 15 pages, 4 figures

Published
2022

20. CC-Top: Constrained Clustering for Dynamic Topic Discovery

Author

Goschenhofer, Jann, Ragupathy, Pranav, Heumann, Christian, Bischl, Bernd, and Aßenmacher, Matthias

Abstract

Research on multi-class text classification of short texts mainly focuses on supervised (transfer) learning approaches, requiring a finite set of pre-defined classes which is constant over time. This work explores deep constrained clustering (CC) as an alternative to supervised learning approaches in a setting with a dynamically changing number of classes, a task we introduce as dynamic topic discovery (DTD).We do so by using pairwise similarity constraints instead of instance-level class labels which allow for a flexible number of classes while exhibiting a competitive performance compared to supervised approaches. First, we substantiate this through a series of experiments and show that CC algorithms exhibit a predictive performance similar to state-of-the-art supervised learning algorithms while requiring less annotation effort.Second, we demonstrate the overclustering capabilities of deep CC for detecting topics in short text data sets in the absence of the ground truth class cardinality during model training.Third, we showcase that these capabilities can be leveraged for the DTD setting as a step towards dynamic learning over time and finally, we release our codebase to nurture further research in this area.

Published
2022
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