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1. The spin-phonon relaxation mechanism of single-molecule magnets in the presence of strong exchange coupling

Author

Mondal, Sourav, Netz, Julia, Hunger, David, Suhr, Simon, Sarkar, Biprajit, van Slageren, Joris, Köhn, Andreas, and Lunghi, Alessandro

Subjects
Condensed Matter - Materials Science
Abstract

Magnetic relaxation in coordination compounds is largely dominated by the interaction of the spin with phonons. Large zero-field splitting and exchange coupling values have been empirically found to strongly suppress spin relaxation and have been used as the main guideline for designing new molecular compounds. Although a comprehensive understanding of spin-phonon relaxation has been achieved for mononuclear complexes, only a qualitative picture is available for polynuclear compounds. Here we fill this critical knowledge gap by providing a full first-principle description of spin-phonon relaxation in an air-stable Co(II) dimer with both large single-ion anisotropy and exchange coupling. Simulations reproduce the experimental relaxation data with excellent accuracy and provide a microscopic understanding of Orbach and Raman relaxation pathways and their dependency on exchange coupling, zero-field splitting, and molecular vibrations. Theory and numerical simulations show that increasing cluster nuclearity to just four cobalt units would lead to a complete suppression of Raman relaxation. These results hold a general validity for single-molecule magnets, providing a deeper understanding of their relaxation and revised strategies for their improvement.

Published
2024

2. X-ALMA: Plug & Play Modules and Adaptive Rejection for Quality Translation at Scale

Author

Xu, Haoran, Murray, Kenton, Koehn, Philipp, Hoang, Hieu, Eriguchi, Akiko, and Khayrallah, Huda

Subjects
Computer Science - Computation and Language
Abstract

Large language models (LLMs) have achieved remarkable success across various NLP tasks, yet their focus has predominantly been on English due to English-centric pre-training and limited multilingual data. While some multilingual LLMs claim to support for hundreds of languages, models often fail to provide high-quality response for mid- and low-resource languages, leading to imbalanced performance heavily skewed in favor of high-resource languages like English and Chinese. In this paper, we prioritize quality over scaling number of languages, with a focus on multilingual machine translation task, and introduce X-ALMA, a model designed with a commitment to ensuring top-tier performance across 50 diverse languages, regardless of their resource levels. X-ALMA surpasses state-of-the-art open-source multilingual LLMs, such as Aya-101 and Aya-23, in every single translation direction on the FLORES and WMT'23 test datasets according to COMET-22. This is achieved by plug-and-play language-specific module architecture to prevent language conflicts during training and a carefully designed training regimen with novel optimization methods to maximize the translation performance. At the final stage of training regimen, our proposed Adaptive Rejection Preference Optimization (ARPO) surpasses existing preference optimization methods in translation tasks.

Published
2024

3. The impact of dark matter on tidal signatures in neutron star mergers with Einstein Telescope

Author

Koehn, Hauke, Giangrandi, Edoardo, Kunert, Nina, Somasundaram, Rahul, Sagun, Violetta, and Dietrich, Tim

Subjects
Astrophysics - High Energy Astrophysical Phenomena, General Relativity and Quantum Cosmology, Nuclear Theory
Abstract

If dark matter (DM) accumulates inside neutron stars (NS), it changes their internal structure and causes a shift of the tidal deformability from the value predicted by the dense-matter equation of state (EOS). In principle, this shift could be observable in the gravitational-wave (GW) signal of binary neutron star (BNS) mergers. We investigate the effect of fermionic, non-interacting DM when observing a large number of GW events from DM-admixed BNSs with the precision of the proposed Einstein telescope (ET). Specifically, we study the impact on the recovery of the baryonic EOS and whether DM properties can be constrained. For this purpose, we create event catalogues of BNS mock events with DM fraction up to 1%, from which we reconstruct the posterior uncertainties with the Fisher matrix approach. Using this data, we perform joint Bayesian inference on the baryonic EOS, DM particle mass, and DM particle fraction in each event. Our results reveal that when falsely ignoring DM effects, the EOS posterior is biased towards softer EOSs, though the offset is rather small. Further, we find that within our assumptions of our DM model and population, ET will likely not be able to test the presence of DM in BNSs, even when combining many events and adding Cosmic Explorer (CE) to the next-generation detector network. Likewise, the potential constraints on the DM particle mass will remain weak because of degeneracies with the fraction and EOS., Comment: 15 pages, 6 figures, published in PRD 110, 103033

Published
2024
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4. Preliminary WMT24 Ranking of General MT Systems and LLMs

Author

Kocmi, Tom, Avramidis, Eleftherios, Bawden, Rachel, Bojar, Ondrej, Dvorkovich, Anton, Federmann, Christian, Fishel, Mark, Freitag, Markus, Gowda, Thamme, Grundkiewicz, Roman, Haddow, Barry, Karpinska, Marzena, Koehn, Philipp, Marie, Benjamin, Murray, Kenton, Nagata, Masaaki, Popel, Martin, Popovic, Maja, Shmatova, Mariya, Steingrímsson, Steinþór, and Zouhar, Vilém

Subjects
Computer Science - Computation and Language
Abstract

This is the preliminary ranking of WMT24 General MT systems based on automatic metrics. The official ranking will be a human evaluation, which is superior to the automatic ranking and supersedes it. The purpose of this report is not to interpret any findings but only provide preliminary results to the participants of the General MT task that may be useful during the writing of the system submission.

Published
2024

5. Probe and Prejudice: Classification of compact objects and model comparison using EOS knowledge

Author

Koehn, Hauke, Wouters, Thibeau, Rose, Henrik, Pang, Peter T. H., Somasundaram, Rahul, Tews, Ingo, and Dietrich, Tim

Subjects
Astrophysics - High Energy Astrophysical Phenomena, General Relativity and Quantum Cosmology, Nuclear Experiment, Nuclear Theory
Abstract

Nuclear theory and experiments, alongside astrophysical observations, constrain the equation of state (EOS) of supranuclear-dense matter. Conversely, knowledge of the EOS allows an improved interpretation of nuclear or astrophysical data. In this article, we use several established constraints on the EOS and the new NICER measurement of PSR J0437-4715 to comment on the nature of the primary companion in GW230529 and the companion of PSR J0514-4002E. We find that, with a probability of $\gtrsim 84\%$ and $\gtrsim 68\%$, respectively, both objects are black holes. These likelihoods increase to above $95\%$ when one uses GW170817's remnant as an upper limit on the TOV mass. We also demonstrate that the current knowledge of the EOS substantially disfavors high masses and radii for PSR J0030+0451, inferred recently when combining NICER with XMM-Newton background data and using particular hot-spot models. Finally, we also use our obtained EOS knowledge to comment on measurements of the nuclear symmetry energy, finding that the large value predicted by the PREX-II measurement displays some mild tension with other constraints on the EOS., Comment: 14 pages, 5 figures, published in PRD, v3 contains minor correction for the Pb-208 dipole

Published
2024
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6. Learn and Unlearn in Multilingual LLMs

Author

Lu, Taiming and Koehn, Philipp

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

This paper investigates the propagation of harmful information in multilingual large language models (LLMs) and evaluates the efficacy of various unlearning methods. We demonstrate that fake information, regardless of the language it is in, once introduced into these models through training data, can spread across different languages, compromising the integrity and reliability of the generated content. Our findings reveal that standard unlearning techniques, which typically focus on English data, are insufficient in mitigating the spread of harmful content in multilingual contexts and could inadvertently reinforce harmful content across languages. We show that only by addressing harmful responses in both English and the original language of the harmful data can we effectively eliminate generations for all languages. This underscores the critical need for comprehensive unlearning strategies that consider the multilingual nature of modern LLMs to enhance their safety and reliability across diverse linguistic landscapes.

Published
2024

7. Recovering document annotations for sentence-level bitext

Author

Wicks, Rachel, Post, Matt, and Koehn, Philipp

Subjects
Computer Science - Computation and Language
Abstract

Data availability limits the scope of any given task. In machine translation, historical models were incapable of handling longer contexts, so the lack of document-level datasets was less noticeable. Now, despite the emergence of long-sequence methods, we remain within a sentence-level paradigm and without data to adequately approach context-aware machine translation. Most large-scale datasets have been processed through a pipeline that discards document-level metadata. In this work, we reconstruct document-level information for three (ParaCrawl, News Commentary, and Europarl) large datasets in German, French, Spanish, Italian, Polish, and Portuguese (paired with English). We then introduce a document-level filtering technique as an alternative to traditional bitext filtering. We present this filtering with analysis to show that this method prefers context-consistent translations rather than those that may have been sentence-level machine translated. Last we train models on these longer contexts and demonstrate improvement in document-level translation without degradation of sentence-level translation. We release our dataset, ParaDocs, and resulting models as a resource to the community., Comment: ACL 2024 Findings

Published
2024

8. Designing an Evaluation Framework for Large Language Models in Astronomy Research

Author

Wu, John F., Hyk, Alina, McCormick, Kiera, Ye, Christine, Astarita, Simone, Baral, Elina, Ciuca, Jo, Cranney, Jesse, Field, Anjalie, Iyer, Kartheik, Koehn, Philipp, Kotler, Jenn, Kruk, Sandor, Ntampaka, Michelle, O'Neill, Charles, Peek, Joshua E. G., Sharma, Sanjib, and Yunus, Mikaeel

Subjects
Astrophysics - Instrumentation and Methods for Astrophysics, Computer Science - Artificial Intelligence, Computer Science - Human-Computer Interaction, Computer Science - Information Retrieval
Abstract

Large Language Models (LLMs) are shifting how scientific research is done. It is imperative to understand how researchers interact with these models and how scientific sub-communities like astronomy might benefit from them. However, there is currently no standard for evaluating the use of LLMs in astronomy. Therefore, we present the experimental design for an evaluation study on how astronomy researchers interact with LLMs. We deploy a Slack chatbot that can answer queries from users via Retrieval-Augmented Generation (RAG); these responses are grounded in astronomy papers from arXiv. We record and anonymize user questions and chatbot answers, user upvotes and downvotes to LLM responses, user feedback to the LLM, and retrieved documents and similarity scores with the query. Our data collection method will enable future dynamic evaluations of LLM tools for astronomy., Comment: 7 pages, 3 figures. Code available at https://github.com/jsalt2024-evaluating-llms-for-astronomy/astro-arxiv-bot

Published
2024

9. Prediction of cancer dynamics under treatment using Bayesian neural networks: A simulated study

Author

Myklebust, Even Moa, Frigessi, Arnoldo, Schjesvold, Fredrik, Foo, Jasmine, Leder, Kevin, and Köhn-Luque, Alvaro

Subjects
Quantitative Biology - Quantitative Methods, Statistics - Machine Learning
Abstract

Predicting cancer dynamics under treatment is challenging due to high inter-patient heterogeneity, lack of predictive biomarkers, and sparse and noisy longitudinal data. Mathematical models can summarize cancer dynamics by a few interpretable parameters per patient. Machine learning methods can then be trained to predict the model parameters from baseline covariates, but do not account for uncertainty in the parameter estimates. Instead, hierarchical Bayesian modeling can model the relationship between baseline covariates to longitudinal measurements via mechanistic parameters while accounting for uncertainty in every part of the model. The mapping from baseline covariates to model parameters can be modeled in several ways. A linear mapping simplifies inference but fails to capture nonlinear covariate effects and scale poorly for interaction modeling when the number of covariates is large. In contrast, Bayesian neural networks can potentially discover interactions between covariates automatically, but at a substantial cost in computational complexity. In this work, we develop a hierarchical Bayesian model of subpopulation dynamics that uses baseline covariate information to predict cancer dynamics under treatment, inspired by cancer dynamics in multiple myeloma (MM), where serum M protein is a well-known proxy of tumor burden. As a working example, we apply the model to a simulated dataset and compare its ability to predict M protein trajectories to a model with linear covariate effects. Our results show that the Bayesian neural network covariate effect model predicts cancer dynamics more accurately than a linear covariate effect model when covariate interactions are present. The framework can also be applied to other types of cancer or other time series prediction problems that can be described with a parametric model., Comment: 22 pages, 10 figures

Published
2024

10. DiffNorm: Self-Supervised Normalization for Non-autoregressive Speech-to-speech Translation

Author

Tan, Weiting, Zhang, Jingyu, Shen, Lingfeng, Khashabi, Daniel, and Koehn, Philipp

Subjects
Computer Science - Computation and Language
Abstract

Non-autoregressive Transformers (NATs) are recently applied in direct speech-to-speech translation systems, which convert speech across different languages without intermediate text data. Although NATs generate high-quality outputs and offer faster inference than autoregressive models, they tend to produce incoherent and repetitive results due to complex data distribution (e.g., acoustic and linguistic variations in speech). In this work, we introduce DiffNorm, a diffusion-based normalization strategy that simplifies data distributions for training NAT models. After training with a self-supervised noise estimation objective, DiffNorm constructs normalized target data by denoising synthetically corrupted speech features. Additionally, we propose to regularize NATs with classifier-free guidance, improving model robustness and translation quality by randomly dropping out source information during training. Our strategies result in a notable improvement of about +7 ASR-BLEU for English-Spanish (En-Es) and +2 ASR-BLEU for English-French (En-Fr) translations on the CVSS benchmark, while attaining over 14x speedup for En-Es and 5x speedup for En-Fr translations compared to autoregressive baselines., Comment: Accepted at NeurIPS 2024

Published
2024

11. Synthetic Spectra from Particle-in-cell Simulations of Relativistic Jets containing an initial Toroidal Magnetic Field

Author

Dutan, Ioana, Nishikawa, Kenichi, Meli, Athina, Kobzar, Oleh, Koehn, Christoph, Mizuno, Yosuke, MacDonald, Nicholas, Gomez, Jose L., and Hirotani, Kouichi

Subjects
Astrophysics - High Energy Astrophysical Phenomena
Abstract

The properties of relativistic jets, their interaction with the environment, and their emission of radiation can be self-consistently studied by using particle-in-cell (PIC) numerical simulations. Using three-dimensional (3D), relativistic PIC simulations, we present the first self-consistently calculated synthetic spectra of head-on and off-axis emission from electrons accelerated in cylindrical, relativistic plasma jets containing an initial toroidal magnetic field. The jet particles are initially accelerated during the linear stage of growing plasma instabilities, which are the Weibel instability (WI), kinetic Kelvin-Helmholtz instability (kKHI), and mushroom instability (MI). In the nonlinear stage, these instabilities are dissipated and generate turbulent magnetic fields which accelerate particles further. We calculate the synthetic spectra by tracing a large number of jet electrons in the nonlinear stage, near the jet head where the magnetic fields are turbulent. Our results show the basic properties of jitter-like radiation emitted by relativistic electrons when they travel through a magnetized plasma with the plasma waves driven by kinetic instabilities (WI, kKHI, and MI) growing into the nonlinear regime. At low frequencies, the slope of the spectrum is ~ 0.94, which is similar to that of the jitter radiation. The results are relevant to active galactic nuclei/blazars and gamma-ray burst jet emission and set the ground for future studies on synthetic spectra from relativistic jets., Comment: 9 pages, 8 figures, submitted to MNRAS

Published
2024

13. Plasma electron acceleration in a non-resonant microwave heating scheme below the electron cyclotron frequency

Author

A Köhn-Seemann, G Birkenmeier, P Diez, E Holzhauer, S Merli, M Ramisch, G Sichardt, and U Stroth

Subjects
magnetized plasmas, whistler waves, mode coupling in plasmas, microwave plasma heating, stellarator, electric and magnetic measurements, Science, Physics, QC1-999
Abstract

Microwave heating of over-dense plasmas is routinely achieved in the stellarator TJ-K. In contrast to usually applied heating scenarios in tokamaks or stellarators, an operational regime is described where the heating occurs well below the electron cyclotron frequency but still well above the lower hybrid frequency. Microwave energy is deposited at the so-called O-resonance, accompanied by a small population of high-energy electrons with an energy up to 100 keV. These electrons are responsible for a significant toroidal net current and the occurrence of hard x-rays. Requirements for achieving this heating regime are described together with a novel scheme for plasma-electron acceleration.

Published
2022
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14. Pointer-Generator Networks for Low-Resource Machine Translation: Don't Copy That!

Author

Bafna, Niyati, Koehn, Philipp, and Yarowsky, David

Subjects
Computer Science - Computation and Language
Abstract

While Transformer-based neural machine translation (NMT) is very effective in high-resource settings, many languages lack the necessary large parallel corpora to benefit from it. In the context of low-resource (LR) MT between two closely-related languages, a natural intuition is to seek benefits from structural "shortcuts", such as copying subwords from the source to the target, given that such language pairs often share a considerable number of identical words, cognates, and borrowings. We test Pointer-Generator Networks for this purpose for six language pairs over a variety of resource ranges, and find weak improvements for most settings. However, analysis shows that the model does not show greater improvements for closely-related vs. more distant language pairs, or for lower resource ranges, and that the models do not exhibit the expected usage of the mechanism for shared subwords. Our discussion of the reasons for this behaviour highlights several general challenges for LR NMT, such as modern tokenization strategies, noisy real-world conditions, and linguistic complexities. We call for better scrutiny of linguistically motivated improvements to NMT given the blackbox nature of Transformer models, as well as for a focus on the above problems in the field., Comment: 5 pages, Accepted at Workshop on Insights from Negative Results in NLP (NAACL) 2024

Published
2024

15. From existing and new nuclear and astrophysical constraints to stringent limits on the equation of state of neutron-rich dense matter

Author

Koehn, Hauke, Rose, Henrik, Pang, Peter T. H., Somasundaram, Rahul, Reed, Brendan T., Tews, Ingo, Abac, Adrian, Komoltsev, Oleg, Kunert, Nina, Kurkela, Aleksi, Coughlin, Michael W., Healy, Brian F., and Dietrich, Tim

Subjects
Astrophysics - High Energy Astrophysical Phenomena, General Relativity and Quantum Cosmology, Nuclear Experiment, Nuclear Theory
Abstract

Through continuous progress in nuclear theory and experiment and an increasing number of neutron-star observations, a multitude of information about the equation of state (EOS) for matter at extreme densities is available. To constrain the EOS across its entire density range, this information needs to be combined consistently. However, the impact and model-dependency of individual observations vary. We present a broad compendium of different constraints and apply them individually to a large set of EOS candidates within a Bayesian framework. Specifically, we explore different ways how chiral effective field theory and perturbative quantum chromodynamics can be used to place a likelihood on EOS candidates. We also investigate the impact of nuclear experimental constraints, as well as different radio and X-ray observations of neutron star (NS) masses and radii. This is augmented by reanalyses of the existing data from BNS coalescences, in particular of GW170817, with improved models for the tidal waveform and kilonova light curves, which we also utilize to construct a tight upper limit of 2.39$\,$M$_\odot$ on the TOV mass based on GW170817's remnant. Our diverse set of constraints is eventually combined to obtain stringent limits on NS properties. We organize the combination in a way to distinguish between constraints where the systematic uncertainties are deemed small and those that rely on less conservative assumptions. For the former, we find the radius of the canonical 1.4$\,$M$_\odot$ neutron star to be $R_{1.4}= 12.26_{-0.91}^{+0.80}\,$km and the TOV mass at $M_{\rm TOV}= 2.25_{-0.22}^{+0.42}\,$M$_\odot$ (95% credibility). Including all the presented constraints yields $R_{1.4}= 12.20_{-0.48}^{+0.50}\,$km and $M_{\rm TOV}= 2.30_{-0.20}^{+0.07}\,$M$_\odot$., Comment: 55 pages, 33 figures, webinterface for custom constraint combinations in https://enlil.gw.physik.uni-potsdam.de/eos_constraints

Published
2024

16. Streaming Sequence Transduction through Dynamic Compression

Author

Tan, Weiting, Chen, Yunmo, Chen, Tongfei, Qin, Guanghui, Xu, Haoran, Zhang, Heidi C., Van Durme, Benjamin, and Koehn, Philipp

Subjects
Computer Science - Computation and Language, Computer Science - Sound, Electrical Engineering and Systems Science - Audio and Speech Processing
Abstract

We introduce STAR (Stream Transduction with Anchor Representations), a novel Transformer-based model designed for efficient sequence-to-sequence transduction over streams. STAR dynamically segments input streams to create compressed anchor representations, achieving nearly lossless compression (12x) in Automatic Speech Recognition (ASR) and outperforming existing methods. Moreover, STAR demonstrates superior segmentation and latency-quality trade-offs in simultaneous speech-to-text tasks, optimizing latency, memory footprint, and quality.

Published
2024

17. The Language Barrier: Dissecting Safety Challenges of LLMs in Multilingual Contexts

Author

Shen, Lingfeng, Tan, Weiting, Chen, Sihao, Chen, Yunmo, Zhang, Jingyu, Xu, Haoran, Zheng, Boyuan, Koehn, Philipp, and Khashabi, Daniel

Subjects
Computer Science - Computation and Language, Computer Science - Artificial Intelligence
Abstract

As the influence of large language models (LLMs) spans across global communities, their safety challenges in multilingual settings become paramount for alignment research. This paper examines the variations in safety challenges faced by LLMs across different languages and discusses approaches to alleviating such concerns. By comparing how state-of-the-art LLMs respond to the same set of malicious prompts written in higher- vs. lower-resource languages, we observe that (1) LLMs tend to generate unsafe responses much more often when a malicious prompt is written in a lower-resource language, and (2) LLMs tend to generate more irrelevant responses to malicious prompts in lower-resource languages. To understand where the discrepancy can be attributed, we study the effect of instruction tuning with reinforcement learning from human feedback (RLHF) or supervised finetuning (SFT) on the HH-RLHF dataset. Surprisingly, while training with high-resource languages improves model alignment, training in lower-resource languages yields minimal improvement. This suggests that the bottleneck of cross-lingual alignment is rooted in the pretraining stage. Our findings highlight the challenges in cross-lingual LLM safety, and we hope they inform future research in this direction.

Published
2024

19. A review of mechanistic learning in mathematical oncology

Author

Metzcar, John, Jutzeler, Catherine R., Macklin, Paul, Köhn-Luque, Alvaro, and Brüningk, Sarah C.

Subjects
Quantitative Biology - Quantitative Methods
Abstract

Mechanistic learning, the synergistic combination of knowledge-driven and data-driven modeling, is an emerging field. In particular, in mathematical oncology, the application of mathematical modeling to cancer biology and oncology, the use of mechanistic learning is growing. This review aims to capture the current state of the field and provide a perspective on how mechanistic learning may further progress in mathematical oncology. We highlight the synergistic potential of knowledge-driven mechanistic mathematical modeling and data-driven modeling, such as machine and deep learning. We point out similarities and differences regarding model complexity, data requirements, outputs generated, and interpretability of the algorithms and their results. Then, organizing combinations of knowledge- and data-driven modeling into four categories (sequential, parallel, intrinsic, and extrinsic mechanistic learning), we summarize a variety of approaches at the interface between purely data- and knowledge-driven models. Using examples predominantly from oncology, we discuss a range of techniques including physics-informed neural networks, surrogate model learning, and digital twins. We see that mechanistic learning, with its intentional leveraging of the strengths of both knowledge and data-driven modeling, can greatly impact the complex problems of oncology. Given the increasing ubiquity and impact of machine learning, it is critical to incorporate it into the study of mathematical oncology with mechanistic learning providing a path to that end. As the field of mechanistic learning advances, we aim for this review and proposed categorization framework to foster additional collaboration between the data- and knowledge-driven modeling fields. Further collaboration will help address difficult issues in oncology such as limited data availability, requirements of model transparency, and complex input data

Published
2023

20. Thermally Averaged Magnetic Anisotropy Tensors via Machine Learning Based on Gaussian Moments

Author

Zaverkin, Viktor, Netz, Julia, Zills, Fabian, Köhn, Andreas, and Kästner, Johannes

Subjects
Physics - Computational Physics, Condensed Matter - Materials Science, Statistics - Machine Learning
Abstract

We propose a machine learning method to model molecular tensorial quantities, namely the magnetic anisotropy tensor, based on the Gaussian-moment neural-network approach. We demonstrate that the proposed methodology can achieve an accuracy of 0.3--0.4 cm$^{-1}$ and has excellent generalization capability for out-of-sample configurations. Moreover, in combination with machine-learned interatomic potential energies based on Gaussian moments, our approach can be applied to study the dynamic behavior of magnetic anisotropy tensors and provide a unique insight into spin-phonon relaxation.

Published
2023
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21. Findings of the WMT 2023 Shared Task on Discourse-Level Literary Translation: A Fresh Orb in the Cosmos of LLMs

Author

Wang, Longyue, Tu, Zhaopeng, Gu, Yan, Liu, Siyou, Yu, Dian, Ma, Qingsong, Lyu, Chenyang, Zhou, Liting, Liu, Chao-Hong, Ma, Yufeng, Chen, Weiyu, Graham, Yvette, Webber, Bonnie, Koehn, Philipp, Way, Andy, Yuan, Yulin, and Shi, Shuming

Subjects
Computer Science - Computation and Language, Computer Science - Artificial Intelligence
Abstract

Translating literary works has perennially stood as an elusive dream in machine translation (MT), a journey steeped in intricate challenges. To foster progress in this domain, we hold a new shared task at WMT 2023, the first edition of the Discourse-Level Literary Translation. First, we (Tencent AI Lab and China Literature Ltd.) release a copyrighted and document-level Chinese-English web novel corpus. Furthermore, we put forth an industry-endorsed criteria to guide human evaluation process. This year, we totally received 14 submissions from 7 academia and industry teams. We employ both automatic and human evaluations to measure the performance of the submitted systems. The official ranking of the systems is based on the overall human judgments. In addition, our extensive analysis reveals a series of interesting findings on literary and discourse-aware MT. We release data, system outputs, and leaderboard at http://www2.statmt.org/wmt23/literary-translation-task.html., Comment: WMT2023 Discourse-Level Literary Translation Shared Task Overview Paper

Published
2023

22. Narrowing the Gap between Zero- and Few-shot Machine Translation by Matching Styles

Author

Tan, Weiting, Xu, Haoran, Shen, Lingfeng, Li, Shuyue Stella, Murray, Kenton, Koehn, Philipp, Van Durme, Benjamin, and Chen, Yunmo

Subjects
Computer Science - Computation and Language
Abstract

Large language models trained primarily in a monolingual setting have demonstrated their ability to generalize to machine translation using zero- and few-shot examples with in-context learning. However, even though zero-shot translations are relatively good, there remains a discernible gap comparing their performance with the few-shot setting. In this paper, we investigate the factors contributing to this gap and find that this gap can largely be closed (for about 70%) by matching the writing styles of the target corpus. Additionally, we explore potential approaches to enhance zero-shot baselines without the need for parallel demonstration examples, providing valuable insights into how these methods contribute to improving translation metrics.

Published
2023

23. Error Norm Truncation: Robust Training in the Presence of Data Noise for Text Generation Models

Author

Li, Tianjian, Xu, Haoran, Koehn, Philipp, Khashabi, Daniel, and Murray, Kenton

Subjects
Computer Science - Computation and Language
Abstract

Text generation models are notoriously vulnerable to errors in the training data. With the wide-spread availability of massive amounts of web-crawled data becoming more commonplace, how can we enhance the robustness of models trained on a massive amount of noisy web-crawled text? In our work, we propose Error Norm Truncation (ENT), a robust enhancement method to the standard training objective that truncates noisy data. Compared to methods that only uses the negative log-likelihood loss to estimate data quality, our method provides a more accurate estimation by considering the distribution of non-target tokens, which is often overlooked by previous work. Through comprehensive experiments across language modeling, machine translation, and text summarization, we show that equipping text generation models with ENT improves generation quality over standard training and previous soft and hard truncation methods. Furthermore, we show that our method improves the robustness of models against two of the most detrimental types of noise in machine translation, resulting in an increase of more than 2 BLEU points over the MLE baseline when up to 50% of noise is added to the data., Comment: ICLR 2024

Published
2023

28. Revision of the 'Guideline of the German Medical Association on Quality Assurance in Medical Laboratory Examinations – Rili-BAEK'

Author

Ahmad-Nejad Parviz, Bauersfeld Walter, Baum Hannsjörg, Behre Hermann M., Burkhardt Ralph, Cassens Uwe, Ceglarek Uta, Christmann Martin, Cremers Jann-Frederik, Diedrich Sabine, Döring Sybille, Gässler Norbert, Haase Gerhard, Haselmann Verena, Hofmann Jörg, Holdenrieder Stefan, Hübner Marc P., Hunfeld Klaus-Peter, Huzly Daniela, Kohlschmidt Nicolai, Köhn Frank-Michael, Kornak Uwe, Kreuzer Karl-Anton, Kunz Jürgen, Lackner Karl, Niendorf Sandra, Peetz Dirk, Petersmann Astrid, Pick Karl-Heinz, Rabenau Holger F., Sack Ulrich, Schächterle Carolin, Schaffer Sven, Schneider Sven, Schuppe Hans Christian, Seidl Christian, Tönnies Holger, Uhr Manfred, Ullmann Kerstin, Volkmann Martin, Weiss Nathalie, Wellinghausen Nele, Zeichhardt Heinz, App Urban, Auch Dieter, Barion Jürgen, Hiester Philipp, Kaiser Patricia, Klouche Mariam, Kolanowski-Albrecht Mandy, Macdonald Rainer, Malms-Fleschenberg Waltraut, Michelsen Andrea, Schellenberg Ingo, Schiffner Roman, Spannagl Michael, Stosch Rainer, van Diepen Laura, Wettmarshausen Sascha, Ziesing Stefan, Knabbe Cornelius, Schoerner Christoph, Kliesch Sabine, and Nauck Matthias

Subjects
Medical technology, R855-855.5
Published
2024
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29. Biomass prediction of Typha latifolia on a paludiculture site by combining structural and spectral features from UAS data

Author

Christina Hellmann, Bernd Bobertz, Fabian Hübner, Nora Köhn, Jürgen Kreyling, and Sebastian van der Linden

Subjects
cattail, multispectral, remote sensing, rewetting monitoring, uav, Ecology, QH540-549.5
Abstract

Drained peatlands need to be rewetted to reduce carbon emissions. To realise this, sustainable land-use alternatives must be implemented after rewetting. Uncrewed Aerial Systems (UAS) can aid in monitoring crop growth and spatial heterogeneity in vegetation patterns, and hence contribute to improved management. We monitored Typha latifolia (‘Typha’) biomass for an 8.5 ha rewetted paludiculture site in north-east Germany using structural (digital surface model, DSM) and multispectral data (5 spectral bands and normalized difference vegetation index, NDVI) obtained by drone surveys in July, August and September 2021. We used in-situ harvests of Typha from 1 m2 square plots as training data. Biomass for validation plots was predicted from field measurements for the respective observation dates. The DSM’s and NDVI’s spatial resolution (2.76 cm) were resampled to 1 m and original values aggregated into different spatial metrics (i.e., percentiles of pixel height and NDVI values). Different regression models were separately tested for the different August DSM and NDVI metrics as explanatory variables from August data. A normalised Typha fraction cover mask from the multispectral data was used to exclude non-target species. To test the model for different phenological stages, we then applied the best performing model of August to July and September. The models were compared to non-destructive biomass predictions from linear relationships between field measurements. The combination of DSM or NDVI metrics with the Typha mask captured the heterogeneity of Typha biomass well (R2 = 0.65–0.71). Biomass overprediction for present non-target species was successfully excluded. DSM models outperformed NDVI models for dense Typha stands due to saturation of the NDVI at 500 g m-2 biomass. We were able to show biomass accumulation from July to August of up to 200 g m-2. The September model had the lowest performance (R2 = 0.6), due to a weakened height-biomass relation. Further, our model underestimated flower biomass. As single UAS surveys offer both structural and spectral information, UAS data will contribute to precise biomass and vegetation monitoring at high spatial resolution in upcoming rewetting efforts.

Published
2024
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30. Dynamics of supermassive black hole triples in the ROMULUS25 cosmological simulation

Author

Koehn, Hauke, Just, Andreas, Berczik, Peter, and Tremmel, Michael

Subjects
Astrophysics - Astrophysics of Galaxies
Abstract

For a pair of supermassive black holes (SMBHs) in the remnant of a dual galaxy merger, well-known models exist to describe their dynamical evolution until the final coalescence accompanied by the emission of a low-frequency gravitational wave (GW) signal. In this article, we investigate the dynamical evolution of three SMBH triple systems recovered from the ROMULUS25 cosmological simulation to explore common dynamical evolution patterns and assess typical coalescence times. For this purpose, we construct initial conditions from the ROMULUS25 data and perform high-resolution gravitodynamical \N-body simulations. We track the orbital evolution from the galactic inspiral to the formation of hard binaries at sub-parsec separation and use the observed hardening rates to project the time of coalescence. In all cases, the two heaviest black holes form an efficiently hardening binary that merges within fractions of the Hubble time. The lightest SMBH either gets ejected, forms a stable hierarchical triple system with the heavier binary, forms a hardening binary with the previously merged binary's remnant, or remains on a wide galactic orbit. The coalescence times of the lighter black holes are thus significantly longer than for the heavier binary, as they experience lower dynamical friction and stellar hardening rates. We observe the formation of hierarchical triples when the density profile of the galactic nucleus is sufficiently steep., Comment: 11 pages, 6 figures, 4 tables, accepted for publication in A&A

Published
2023
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33. The German version of the tablet-based UCSF Brain Health Assessment is sensitive to early symptoms of neurodegenerative disorders.

Author

Gianina, Toller, Lorena, Stäger, Dilaxy, Kumurasamy, Patrick, Callahan, Florian, Köhn, Thomas, Münzer, Ursi, Kunze, Andreas, U, Kate, Possin, Felbecker, Ansgar, and Rankin, Katherine

Subjects
cognitive screening, major neurocognitive disorder, mild neurocognitive disorder, primary care, tablet-based testing, Humans, Neurocognitive Disorders, Mental Status and Dementia Tests, Neurodegenerative Diseases, Alzheimer Disease, Brain, Cognitive Dysfunction, Neuropsychological Tests
Abstract

INTRODUCTION: Cognition often remains unassessed in primary care. To improve early diagnosis of neurocognitive disorder (NCD) in Switzerland, the tablet-based UCSF brain health assessment (BHA) and brain health survey (BHS) were validated. METHODS: The German BHA, BHS, and Montreal Cognitive Assessment (MoCA) were administered to 67 patients with mild/major NCD and 50 controls. BHA includes subtests of memory, executive, visuospatial, and language functioning, and informant-based BHS asks about behavior and motor functioning. RESULTS: The complete instrument (BHA + BHS) was most accurate at detecting mild NCD (AUC = 0.95) and NCD without amyloid pathology (AUC = 0.96), followed by the BHA. All measures were accurate (all AUCs > 0.95) at distinguishing major NCD and NCD with amyloid pathology (Alzheimers disease [AD]) from controls. DISCUSSION: The German BHA and BHS are more sensitive to mild NCD and non-AD presentations than the MoCA and thus have a high potential to identify patients with NCD in primary care earlier than currently used screens.

Published
2023

37. Condensing Multilingual Knowledge with Lightweight Language-Specific Modules

Author

Xu, Haoran, Tan, Weiting, Li, Shuyue Stella, Chen, Yunmo, Van Durme, Benjamin, Koehn, Philipp, and Murray, Kenton

Subjects
Computer Science - Computation and Language
Abstract

Incorporating language-specific (LS) modules is a proven method to boost performance in multilingual machine translation. This approach bears similarity to Mixture-of-Experts (MoE) because it does not inflate FLOPs. However, the scalability of this approach to hundreds of languages (experts) tends to be unmanageable due to the prohibitive number of parameters introduced by full-rank matrices in fully-connected layers. In this work, we introduce the Language-Specific Matrix Synthesis (LMS) method. This approach constructs LS modules by generating low-rank matrices from two significantly smaller matrices to approximate the full-rank matrix. Furthermore, we condense multilingual knowledge from multiple LS modules into a single shared module with the Fuse Distillation (FD) technique to improve the efficiency of inference and model serialization. We show that our LMS method significantly outperforms previous LS methods and MoE methods with the same amount of extra parameters, e.g., 1.73 BLEU points over the Switch Transformer on many-to-many multilingual machine translation. Importantly, LMS is able to have comparable translation performance with much fewer parameters., Comment: Accepted at the main conference of EMNLP 2023

Published
2023

38. Multilingual Pixel Representations for Translation and Effective Cross-lingual Transfer

Author

Salesky, Elizabeth, Verma, Neha, Koehn, Philipp, and Post, Matt

Subjects
Computer Science - Computation and Language
Abstract

We introduce and demonstrate how to effectively train multilingual machine translation models with pixel representations. We experiment with two different data settings with a variety of language and script coverage, demonstrating improved performance compared to subword embeddings. We explore various properties of pixel representations such as parameter sharing within and across scripts to better understand where they lead to positive transfer. We observe that these properties not only enable seamless cross-lingual transfer to unseen scripts, but make pixel representations more data-efficient than alternatives such as vocabulary expansion. We hope this work contributes to more extensible multilingual models for all languages and scripts., Comment: EMNLP 2023

Published
2023

39. Commensurate and incommensurate 1D interacting quantum systems

Author

Di Carli, Andrea, Parsonage, Christopher, La Rooij, Arthur, Koehn, Lennart, Ulm, Clemens, Duncan, Callum W, Daley, Andrew J, Haller, Elmar, and Kuhr, Stefan

Subjects
Condensed Matter - Quantum Gases, Quantum Physics
Abstract

Single-atom imaging resolution of many-body quantum systems in optical lattices is routinely achieved with quantum-gas microscopes. Key to their great versatility as quantum simulators is the ability to use engineered light potentials at the microscopic level. Here, we employ dynamically varying microscopic light potentials in a quantum-gas microscope to study commensurate and incommensurate 1D systems of interacting bosonic Rb atoms. Such incommensurate systems are analogous to doped insulating states that exhibit atom transport and compressibility. Initially, a commensurate system with unit filling and fixed atom number is prepared between two potential barriers. We deterministically create an incommensurate system by dynamically changing the position of the barriers such that the number of available lattice sites is reduced while retaining the atom number. Our systems are characterised by measuring the distribution of particles and holes as a function of the lattice filling, and interaction strength, and we probe the particle mobility by applying a bias potential. Our work provides the foundation for preparation of low-entropy states with controlled filling in optical-lattice experiments., Comment: 12 pages, 10 figures

Published
2023
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40. Validation of GBS plasma turbulence simulation of the TJ-K stellarator

Author

Coelho, A. J., Loizu, J., Ricci, P., Ramisch, M., Köhn-Seemann, A., Birkenmeier, G., and Rahbarnia, K.

Subjects
Physics - Plasma Physics
Abstract

We present a validation of a three-dimensional, two-fluid simulation of plasma turbulence in the TJ-K stellarator, a low temperature plasma experiment ideally suited for turbulence measurements. The simulation is carried out by the GBS code, recently adapted to simulate 3D magnetic fields. The comparison shows that GBS retrieves the main turbulence properties observed in the device, namely the fact that transport is dominated by fluctuations with low poloidal mode number. The poloidal dependence of the radial $\text{E}\times\text{B}$ turbulent flux is compared on a poloidal plane with elliptical flux surfaces, where a very good agreement between experiment and simulation is observed, and on another with triangular flux surfaces, which shows a poorer comparison. The fluctuation levels in both cases are underestimated in the simulations. The equilibrium density profile is well retrieved by the simulation, while the electron temperature and the electrostatic potential profiles, which are very sensitive to the strength and localization of the sources, do not agree well with the experimental measurements.

Published
2023
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41. Using birth-death processes to infer tumor subpopulation structure from live-cell imaging drug screening data

Author

Wu, C., Gunnarsson, E. B., Myklebust, E. M., Köhn-Luque, A., Tadele, D. S., Enserink, J. M., Frigessi, A., Foo, J., and Leder, K.

Subjects
Quantitative Biology - Populations and Evolution, Quantitative Biology - Quantitative Methods
Abstract

Tumor heterogeneity is a complex and widely recognized trait that poses significant challenges in developing effective cancer therapies. In particular, many tumors harbor a variety of subpopulations with distinct therapeutic response characteristics. Characterizing this heterogeneity by determining the subpopulation structure within a tumor enables more precise and successful treatment strategies. In our prior work, we developed PhenoPop, a computational framework for unravelling the drug-response subpopulation structure within a tumor from bulk high-throughput drug screening data. However, the deterministic nature of the underlying models driving PhenoPop restricts the model fit and the information it can extract from the data. As an advancement, we propose a stochastic model based on the linear birth-death process to address this limitation. Our model can formulate a dynamic variance along the horizon of the experiment so that the model uses more information from the data to provide a more robust estimation. In addition, the newly proposed model can be readily adapted to situations where the experimental data exhibits a positive time correlation. We test our model on simulated data (in silico) and experimental data (in vitro), which supports our argument about its advantages., Comment: 36 pages, 14 figures. v2: 1. Rearranged paper and figures. 2. Modified the figures to make them easier to access; results unchanged. 3. Revised the argument in section 3 and section 4; results unchanged. 4. Revised the abstract

Published
2023

42. Modeling of mouse experiments suggests that optimal anti-hormonal treatment for breast cancer is diet-dependent

Author

Akman, Tuğba, Arendt, Lisa M., Geisler, Jürgen, Kristensen, Vessela N., Frigessi, Arnoldo, and Köhn-Luque, Alvaro

Subjects
Mathematics - Optimization and Control
Abstract

Estrogen receptor positive breast cancer is frequently treated with anti-hormonal treatment such as aromatase inhibitors (AI). Interestingly, a high body mass index has been shown to have a negative impact on AI efficacy, most likely due to disturbances in steroid metabolism and adipokine production. Here, we propose a mathematical model based on a system of ordinary differential equations to investigate the effect of high-fat diet on tumor growth. We inform the model with data from mouse experiments, where the animals are fed with high-fat or control (normal) diet. By incorporating AI treatment with drug resistance into the model and by solving optimal control problems we found differential responses for control and high-fat diet. To the best of our knowledge, this is the first attempt to model optimal anti-hormonal treatment for breast cancer in the presence of drug resistance. Our results underline the importance of considering high-fat diet and obesity as factors influencing clinical outcomes during anti-hormonal therapies in breast cancer patients., Comment: 47 pages, 22 figures

Published
2023

46. Camera-Based Navigation: Convolutional Neural Networks vs Rule-Based Approaches

Author

Boes, Simon, Algorri, Maria-Elena, Köhn, Hartmut, 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, Ronzhin, Andrey, editor, Savage, Jesus, editor, and Meshcheryakov, Roman, editor

Published
2024
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48. Is Next Stage Capitalism an Ethically Sound Development or a Pipe Dream-Nightmare?

Author

Koehn, Daryl, Brink, Alexander, Series Editor, Rendtorff, Jacob Dahl, Series Editor, Boatright, John, Editorial Board Member, Brenkert, George, Editorial Board Member, Chan, Allan K. K., Editorial Board Member, Cowton, Christopher, Editorial Board Member, George, Richard T. de, Editorial Board Member, Elster, Jon, Editorial Board Member, Etzioni, Amitai, Editorial Board Member, Pies, Ingo, Editorial Board Member, Haase, Michaela, Editorial Board Member, Hoevel, Carlos, Editorial Board Member, Shionoya, Yuichi, Editorial Board Member, Van Parijs, Philippe, Editorial Board Member, Rossouw, Gedeon J., Editorial Board Member, Wieland, Josef, Editorial Board Member, Pava, Moses L., editor, and Dion, Michel, editor

Published
2024
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50. Successive interacting coronal mass ejections: How to create a perfect storm?

Author

Koehn, Gordon J., Desai, Ravindra T., Davies, Emma E., Forsyth, Robert J., Eastwood, Jonathan P., and Poedts, Stefaan

Subjects
Astrophysics - Solar and Stellar Astrophysics, Physics - Plasma Physics, Physics - Space Physics
Abstract

Coronal mass ejections (CMEs) are the largest type of eruptions on the Sun and the main driver of severe space weather at the Earth. In this study, we implement a force-free spheromak CME description within 3-D magnetohydrodynamic simulations to parametrically evaluate successive interacting CMEs within a representative heliosphere. We explore CME-CME interactions for a range of orientations, launch time variations and CME handedness and quantify their geo-effectiveness via the primary solar wind variables and empirical measures of the disturbance storm time index and subsolar magnetopause standoff distance. We show how the interaction of two moderate CMEs between the Sun and the Earth can translate into extreme conditions at the Earth and how CME-CME interactions at different radial distances can maximise different solar wind variables that induce different geophysical impacts. In particular, we demonstrate how the orientation and handedness of a given CME can have a significant impact on the conservation and loss of magnetic flux, and consequently B$_z$, due to magnetic reconnection with the interplanetary magnetic field. This study thus implicates identification of CME chirality in the solar corona as an early diagnostic for forecasting geomagnetic storms involving multiple CMEs., Comment: 18 pages, 11 figures, 2 tables. The Astrophysical Journal, accepted 10 November 2022

Published
2022
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