Your search keyword '"Kuhn, P."' showing total 17,411 results

1. Department of Education: Preliminary Results Show Strong Leadership Needed to Address Serious Student Aid System Weaknesses. Testimony before the Subcommittee on Higher Education and Workforce Development, Committee on Education and the Workforce, House of Representatives. GAO-24-107783

Author

US Government Accountability Office (GAO), Marisol Cruz Cain, Kaelin Kuhn, Contributor, Nicole Jarvis, Contributor, David Matcham, Contributor, Jillian Clouse, Contributor, Rebecca Eyler, Contributor, Ashley Mattson, Contributor, Brandon Mitchell, Contributor, and Walter Vance, Contributor

Abstract

For decades, the Free Application for Federal Student Aid (FAFSA) forms were processed electronically by the legacy Central Processing System. In 2021 the Office of Federal Student Aid (FSA) initiated a system development effort and in December 2023 deployed a new system to process forms for the 2024-2025 school year. However, student aid applicants reported that the new system had availability issues, recurring errors, and long wait times. This Government Accountability Office (GAO) testimony (1) describes the delays in delivering on the FAFSA Processing System (FPS) requirements; (2) describes the defects that were identified before and after FPS deployment; (3) assesses the extent to which disciplined systems acquisition practices were used to manage FPS requirements, conduct systems testing, and carry out independent acquisition reviews; and (4) assesses the extent to which Education and FSA IT leadership provided oversight of FPS development. This statement is a companion to GAO's related statement on the simplified FAFSA rollout (GAO-24-107407). In addressing the first two objectives, GAO summarized the preliminary results of its continuing ongoing work describing delays and defects. For the latter two objectives on requirements, testing, and independent reviews, GAO completed its audit work and is making recommendations to address weaknesses.

Published

2024

2. Metadata-driven Table Union Search: Leveraging Semantics for Restricted Access Data Integration

Author

Martorana, Margherita, Kuhn, Tobias, and van Ossenbruggen, Jacco

Subjects

Computer Science - Databases

Abstract

Over the past decade, the Table Union Search (TUS) task has aimed to identify unionable tables within data lakes to improve data integration and discovery. While numerous solutions and approaches have been introduced, they primarily rely on open data, making them not applicable to restricted access data, such as medical records or government statistics, due to privacy concerns. Restricted data can still be shared through metadata, which ensures confidentiality while supporting data reuse. This paper explores how TUS can be computed on restricted access data using metadata alone. We propose a method that achieves 81% accuracy in unionability and outperforms existing benchmarks in precision and recall. Our results highlight the potential of metadata-driven approaches for integrating restricted data, facilitating secure data discovery in privacy-sensitive domains. This aligns with the FAIR principles, by ensuring data is Findable, Accessible, Interoperable, and Reusable while preserving confidentiality.

Published

2025

3. A Unified Bayesian Perspective for Conventional and Robust Adaptive Filters

Author

Szczecinski, Leszek, Benesty, Jacob, and Kuhn, Eduardo Vinicius

Subjects

Computer Science - Information Retrieval, Mathematics - Statistics Theory

Abstract

In this work, we present a new perspective on the origin and interpretation of adaptive filters. By applying Bayesian principles of recursive inference from the state-space model and using a series of simplifications regarding the structure of the solution, we can present, in a unified framework, derivations of many adaptive filters which depend on the probabilistic model of the observational noise. In particular, under a Gaussian model, we obtain solutions well-known in the literature (such as LMS, NLMS, or Kalman filter), while using non-Gaussian noise, we obtain new families of adaptive filter. Notably, under assumption of Laplacian noise, we obtain a family of robust filters of which the signed-error algorithm is a well-known member, while other algorithms, derived effortlessly in the proposed framework, are entirely new. Numerical examples are shown to illustrate the properties and provide a better insight into the performance of the derived adaptive filters.

Published

2025

4. The past, present and future of observations of externally irradiated disks

Author

Planet formation environments collaboration, Allen, Megan, Anania, Rossella, Andersen, Morten, Aru, Mari-Liis, Ballabio, Giulia, Ballering, Nicholas P., Beccari, Giacomo, Berné, Olivier, Bik, Arjan, Boyden, Ryan, Coleman, Gavin, Díaz-Berrios, Javiera, Eatson, Joseph W., Frediani, Jenny, Forbrich, Jan, Gkimisi, Katia, Goicoechea, Javier R., Gupta, Saumya, Guarcello, Mario G., Haworth, Thomas J., Henney, William J., Isella, Andrea, Itrich, Dominika, Keyte, Luke, Kim, Jinyoung Serena, Kuhn, Michael, Petit, Franck Le, Luo, Lilian, Manara, Carlo, Maucó, Karina, Meshaka, Raphaël, Millstone, Samuel, Owen, James E., Paine, Sébastien, Parker, Richard J., Peake, Tyger, Peatt, Megan, Pinilla, Paola, Qiao, Lin, Ramírez-Tannus, María Claudia, Ramsay, Suzanne, Reiter, Megan, Rogers, Ciarán, Rosotti, Giovanni, Schroetter, Ilane, Sellek, Andrew, Testi, Leonardo, van Terwisga, Sierk, Vicente, Silvia, Walsh, Catherine, Winter, Andrew, Wright, Nicholas J., and Zeidler, Peter

Subjects

Astrophysics - Solar and Stellar Astrophysics, Astrophysics - Earth and Planetary Astrophysics

Abstract

Recent years have seen a surge of interest in the community studying the effect of ultraviolet radiation environment, predominantly set by OB stars, on protoplanetary disc evolution and planet formation. This is important because a significant fraction of planetary systems, potentially including our own, formed in close proximity to OB stars. This is a rapidly developing field, with a broad range of observations across many regions recently obtained or recently scheduled. In this paper, stimulated by a series of workshops on the topic, we take stock of the current and upcoming observations. We discuss how the community can build on this recent success with future observations to make progress in answering the big questions of the field, with the broad goal of disentangling how external photoevaporation contributes to shaping the observed (exo)planet population. Both existing and future instruments offer numerous opportunities to make progress towards this goal., Comment: Submitted to the Open Journal of Astrophysics. Corresponding author Thomas Haworth

Published

2025

5. Cognitive Neural Architecture Search Reveals Hierarchical Entailment

Author

Kuhn, Lukas, Saba-Sadiya, Sari, and Roig, Gemma

Subjects

Computer Science - Neural and Evolutionary Computing, Computer Science - Artificial Intelligence, Quantitative Biology - Quantitative Methods

Abstract

Recent research has suggested that the brain is more shallow than previously thought, challenging the traditionally assumed hierarchical structure of the ventral visual pathway. Here, we demonstrate that optimizing convolutional network architectures for brain-alignment via evolutionary neural architecture search results in models with clear representational hierarchies. Despite having random weights, the identified models achieve brain-alignment scores surpassing even those of pretrained classification models - as measured by both regression and representational similarity analysis. Furthermore, through traditional supervised training, architectures optimized for alignment with late ventral regions become competitive classification models. These findings suggest that hierarchical structure is a fundamental mechanism of primate visual processing. Finally, this work demonstrates the potential of neural architecture search as a framework for computational cognitive neuroscience research that could reduce the field's reliance on manually designed convolutional networks.

Published

2025

6. Hands-on Experiment Supported by Augmented Reality Smartglasses for Learning the Lorentz Force

Author

Warkentin, Max, Altmeyer, Kristin, Liang, Yajie, Steinmacher, Bermann, Gränz, Barbara, Lichtenberger, Andreas, Küchemann, Stefan, Kuhn, Jochen, and Hoyer, Christoph

Subjects

Physics - Physics Education

Abstract

Previous research has shown that inquiry-based learning through hands-on experiments, as well as learning with multiple, external representations (MERs) can promote the understanding of complex phenomena in physics. In this context, augmented reality (AR) smartglasses make it possible to superimpose real experiments with virtually presented information while maintaining learners' freedom to interact with the experimental setup. This allows spatial and temporal contiguity to be established between the phenomenon and the supporting virtual visualizations which can help to reduce learners' cognitive load and to free up cognitive resources for learning. We introduce an AR learning environment for the investigation of the Lorentz force. By visualizing the fields relevant to the experiment in AR, a more direct investigation of the physical phenomenon can be achieved for the learner. Additionally, this setup can foster the acquisition of representational skills by providing the possibility to superimpose fields using various representations. This learning setting will be used in future studies to investigate how MERs should be combined in a guided inquiry-based learning environment to best promote learners' conceptual knowledge and representational skills. We present the system and report usability data that were collected from a sample of 188 secondary school students. The average score was 80.18 (SD: 12.06) which signals an excellent usability of the AR learning environment., Comment: 20 pages, 12 figures

Published

2025

7. Large Language Model Guided Self-Debugging Code Generation

Author

Adnan, Muntasir, Xu, Zhiwei, and Kuhn, Carlos C. N.

Subjects

Computer Science - Software Engineering, Computer Science - Artificial Intelligence

Abstract

Automated code generation is gaining significant importance in intelligent computer programming and system deployment. However, current approaches often face challenges in computational efficiency and lack robust mechanisms for code parsing and error correction. In this work, we propose a novel framework, PyCapsule, with a simple yet effective two-agent pipeline and efficient self-debugging modules for Python code generation. PyCapsule features sophisticated prompt inference, iterative error handling, and case testing, ensuring high generation stability, safety, and correctness. Empirically, PyCapsule achieves up to 5.7% improvement of success rate on HumanEval, 10.3% on HumanEval-ET, and 24.4% on BigCodeBench compared to the state-of-art methods. We also observe a decrease in normalized success rate given more self-debugging attempts, potentially affected by limited and noisy error feedback in retention. PyCapsule demonstrates broader impacts on advancing lightweight and efficient code generation for artificial intelligence systems.

Published

2025

8. Drone Beam Mapping of the TONE Radio Dish Array

Author

Kuhn, Emily R., Tyndall, Will, Saliwanchik, Benjamin R. B., Polish, Anna Rose, Harris, Maile, and Newburgh, Laura B.

Subjects

Astrophysics - Instrumentation and Methods for Astrophysics, Astrophysics - Cosmology and Nongalactic Astrophysics

Abstract

Drone-based beam measurements are a promising avenue to tackle the critical challenge of calibration for 21 cm cosmology telescopes. In this paper, we introduce a new drone-based calibration system for 400-800 MHz radio observatories, describing its instrumentation and first deployment. We discuss measurements of the TONE array, a CHIME/FRB outrigger pathfinder, and present results, including full 2D high spatial resolution beam maps in both co- and cross-polarization, as well as comparisons to simulations. The polarized beam maps cover a 70 degree by 70 degree grid, capturing the first two sidelobes and measuring the TONE main beam and first sidelobe with 7-9% statistical errors. We investigate polarization angle alignment with frequency, finding significant polarization leakage in the TONE antennas at frequencies above 600 MHz, and a polarization axis rotation with frequency. We describe statistical and systematic errors, as well as measurements of radio frequency interference from the drone and equipment. Our drone system is the first to incorporate a broad-band switched calibration source in the drone payload, enabling background subtraction and direct measurements of the RFI emitted by the drone. The results presented are the first drone-based 2D measurements of cross-polar beam structure and of polarization alignment of an array. The high frequency and spatial resolution achieved with this system have revealed the rich structure of the beam of each antenna, and enabled comparisons between individual dishes and to electromagnetic simulations., Comment: Submitted to ApJ

Published

2025

9. Competitive Programming with Large Reasoning Models

Author

OpenAI, El-Kishky, Ahmed, Wei, Alexander, Saraiva, Andre, Minaiev, Borys, Selsam, Daniel, Dohan, David, Song, Francis, Lightman, Hunter, Clavera, Ignasi, Pachocki, Jakub, Tworek, Jerry, Kuhn, Lorenz, Kaiser, Lukasz, Chen, Mark, Schwarzer, Max, Rohaninejad, Mostafa, McAleese, Nat, contributors, o3, Mürk, Oleg, Garg, Rhythm, Shu, Rui, Sidor, Szymon, Kosaraju, Vineet, and Zhou, Wenda

Subjects

Computer Science - Machine Learning, Computer Science - Artificial Intelligence, Computer Science - Computation and Language

Abstract

We show that reinforcement learning applied to large language models (LLMs) significantly boosts performance on complex coding and reasoning tasks. Additionally, we compare two general-purpose reasoning models - OpenAI o1 and an early checkpoint of o3 - with a domain-specific system, o1-ioi, which uses hand-engineered inference strategies designed for competing in the 2024 International Olympiad in Informatics (IOI). We competed live at IOI 2024 with o1-ioi and, using hand-crafted test-time strategies, placed in the 49th percentile. Under relaxed competition constraints, o1-ioi achieved a gold medal. However, when evaluating later models such as o3, we find that o3 achieves gold without hand-crafted domain-specific strategies or relaxed constraints. Our findings show that although specialized pipelines such as o1-ioi yield solid improvements, the scaled-up, general-purpose o3 model surpasses those results without relying on hand-crafted inference heuristics. Notably, o3 achieves a gold medal at the 2024 IOI and obtains a Codeforces rating on par with elite human competitors. Overall, these results indicate that scaling general-purpose reinforcement learning, rather than relying on domain-specific techniques, offers a robust path toward state-of-the-art AI in reasoning domains, such as competitive programming.

Published

2025

10. 'My Whereabouts, my Location, it's Directly Linked to my Physical Security': An Exploratory Qualitative Study of Location-Dependent Security and Privacy Perceptions among Activist Tech Users

Author

Eichenmüller, Christian, Kuhn, Lisa, and Benenson, Zinaida

Subjects

Computer Science - Human-Computer Interaction, Computer Science - Computers and Society

Abstract

Digital-safety research with at-risk users is particularly urgent. At-risk users are more likely to be digitally attacked or targeted by surveillance and could be disproportionately harmed by attacks that facilitate physical assaults. One group of such at-risk users are activists and politically active individuals. For them, as for other at-risk users, the rise of smart environments harbors new risks. Since digitization and datafication are no longer limited to a series of personal devices that can be switched on and off, but increasingly and continuously surround users, granular geolocation poses new safety challenges. Drawing on eight exploratory qualitative interviews of an ongoing research project, this contribution highlights what activists with powerful adversaries think about evermore data traces, including location data, and how they intend to deal with emerging risks. Responses of activists include attempts to control one's immediate technological surroundings and to more carefully manage device-related location data. For some activists, threat modeling has also shaped provider choices based on geopolitical considerations. Since many activists have not enough digital-safety knowledge for effective protection, feelings of insecurity and paranoia are widespread. Channeling the concerns and fears of our interlocutors, we call for more research on how activists can protect themselves against evermore fine-grained location data tracking., Comment: 10 pages, incl. interview guide and codebook

Published

2025

11. Inclusive Electron Scattering in the Resonance Region off a Hydrogen Target with CLAS12

Author

Klimenko, V., Carman, D. S., Gothe, R. W., Joo, K., Markov, N., Mokeev, V. I., Niculescu, G., Achenbach, P., Alvarado, J. S., Armstrong, W., Atac, H., Avakian, H., Baashen, L., Baltzell, N. A., Barion, L., Bashkanov, M., Battaglieri, M., Benmokhtar, F., Bianconi, A., Biselli, A. S., Boiarinov, S., Bossu, F., Brinkmann, K. -Th., Briscoe, W. J., Brooks, W. K., Burkert, V. D., Bueltmann, S., Capobianco, R., Carvajal, J., Celentano, A., Chatagnon, P., Ciullo, G., Angelo, A. D, Dashyan, N., Defurne, M., De Vita, R., Deur, A., Diehl, S., Dilks, C., Djalali, C., Dupre, R., Egiyan, H., Alaoui, A. El, Fassi, L. El, Elouadrhiri, L., Fegan, S., Fernando, I. P., Filippi, A., Gavalian, G., Gilfoyle, G. P., Glazier, D. I., Hafidi, K., Hakobyan, H., Hattawy, M., Hauenstein, F., Hayward, T. B., Heddle, D., Blin, A. N. Hiller, Hobart, A., Holtrop, M., Ilieva, Y., Ireland, D. G., Isupov, E. L., Jiang, H., Jo, H. S., Joosten, S., Kageya, T., Keller, D., Kim, A., Kim, W., Klest, H. T., Kripko, A., Kubarovsky, V., Kuhn, S. E., Lanza, L., Lee, S., Lenisa, P., Livingston, K., MacGregor, I. J. D., Marchand, D., Martiryan, D., Mascagna, V., Matamoris, D., McKinnon, B., Mineeva, T., Mirazita, M., Camacho, C. Munoz, Turonski, P. Nadel, Nagorna, T., Neupane, K., Niccolai, S., Osipenko, M., Paolone, M., Pappalardo, L. L., Paremuzyan, R., Pasyuk, E., Paul, S. J., Phelps, W., Pilleux, N., Rafael, S. Polcher, Price, J. W., Prok, Y., Raue, B. A., Richards, J., Ripani, M., Ritman, J., Rossi, P., Rusova, A. A., Salgado, C., Schadmand, S., Schmidt, A., Sharabian, Y. G., Shirokov, E. V., Shrestha, S., Sparveris, N., Spreafico, M., Stepanyan, S., Strakovsky, I. I., Strauch, S., Tan, J. A, Tenorio, M., Trotta, N., Tyson, R., Ungaro, M., Vallarino, S., Venturelli, L., Vittorini, T., Voskanyan, H., Voutier, E., Watts, D. P., Weerasinghe, U., Wei, X., Wood, M. H., Xu, L., Zachariou, N., Zhao, Z. W., Zurek, M., and Shresth, S.

Subjects

High Energy Physics - Experiment

Abstract

Inclusive electron scattering cross sections off a hydrogen target at a beam energy of 10.6 GeV have been measured with data collected from the CLAS12 spectrometer at Jefferson Laboratory. These first absolute cross sections from CLAS12 cover a wide kinematic area in invariant mass W of the final state hadrons from the pion threshold up to 2.5 GeV for each bin in virtual photon four-momentum transfer squared $Q^2$ from 2.55 to 10.4~GeV$^2$ owing to the large scattering angle acceptance of the CLAS12 detector. Comparison of the cross sections with the resonant contributions computed from the CLAS results on the nucleon resonance electroexcitation amplitudes has demonstrated a promising opportunity to extend the information on their $Q^2$ evolution up to 10 GeV$^2$. Together these results from CLAS and CLAS12 offer good prospects for probing the nucleon parton distributions at large fractional parton momenta $x$ for $W$ < 2.5 GeV, while covering the range of distances where the transition from the strongly coupled to the perturbative regimes is expected.

Published

2025

12. Reinforcement Learning for Quantum Control under Physical Constraints

Author

Ernst, Jan Ole, Chatterjee, Aniket, Franzmeyer, Tim, and Kuhn, Axel

Subjects

Quantum Physics

Abstract

Quantum optimal control is concerned with the realisation of desired dynamics in quantum systems, serving as a linchpin for advancing quantum technologies and fundamental research. Analytic approaches and standard optimisation algorithms do not yield satisfactory solutions for large quantum systems, and especially not for real world quantum systems which are open and noisy. We devise a physics-informed Reinforcement Learning (RL) algorithm that restricts the space of possible solutions. We incorporate priors about the desired time scales of the quantum state dynamics - as well as realistic control signal limitations - as constraints to the RL algorithm. These physics-informed constraints additionally improve computational scalability by facilitating parallel optimisation. We evaluate our method on three broadly relevant quantum systems (multi-level $\Lambda$ system, Rydberg atom and superconducting transmon) and incorporate real-world complications, arising from dissipation and control signal perturbations. We achieve both higher fidelities - which exceed 0.999 across all systems - and better robustness to time-dependent perturbations and experimental imperfections than previous methods. Lastly, we demonstrate that incorporating multi-step feedback can yield solutions robust even to strong perturbations.

Published

2025

13. Learning quantum properties with informationally redundant external representations: An eye-tracking study

Author

Rexigel, Eva, Qerimi, Linda, Bley, Jonas, Malone, Sarah, Küchemann, Stefan, and Kuhn, Jochen

Subjects

Physics - Physics Education

Abstract

Recent research indicates that the use of multiple external representations MERs has the potential to support learning, especially in complex scientific areas, such as quantum physics. In particular, the provision of informationally redundant external representations can have advantageous effects on learning outcomes. This is of special relevance for quantum education, where various external representations are available and their effective use is recognised as crucial to student learning. However, research on the effects of informationally redundant external representations in quantum learning is limited. The present study aims to contribute to the development of effective learning materials by investigating the effects of learning with informationally redundant external representations on students' learning of quantum physics. Using a between-subjects design, 113 students were randomly assigned to one of four learning conditions. The control group learnt with a traditional multimedia learning unit on the behaviour of a single photon in a Mach-Zehnder interferometer. The three intervention groups received redundant essential information in the Dirac formalism, the Bloch sphere, or both. The use of eye tracking enabled insight into the learning process depending on the external representations provided. While the results indicate no effect of the study condition on learning outcomes (content knowledge and cognitive load), the analysis of visual behaviour reveals decreased learning efficiency with the addition of the Bloch sphere to the multimedia learning unit. The results are discussed based on current insight in learning with MERs. The study emphasises the need for careful instructional design to balance the associated cognitive load when learning with informationally redundant external representations., Comment: 15 pages, 5 figures, Eva Rexigel and Linda Qerimi contributed equally to this work

Published

2025

14. On-the-Spot Loading of Single-Atom Traps

Author

IJspeert, Mark, Holland, Naomi, Yuen, Benjamin, and Kuhn, Axel

Subjects

Quantum Physics, Physics - Atomic Physics, Physics - Optics

Abstract

Reconfigurable arrays of trapped single atoms are an excellent platform for the simulation of many-body physics and the realisation of high-fidelity quantum gates. The confinement of atoms is often achieved with focussed laser beams acting as optical dipole-force traps that allow for both static and dynamic positioning of atoms. In these traps, light-assisted collisions -- enhancing the two-atom loss rate -- ensure that single atom occupation of traps can be realised. However, the time-averaged probability of trapping a single atom is limited to $0.5$ when loading directly from a surrounding cloud of laser-cooled atoms, preventing deterministic filling of large arrays. In this work, we demonstrate that increasing the depth of a static, optical dipole trap enables the transition from fast loading on a timescale of $2.1\,$s to an extended trap lifetime of $7.9\,$s. This method demonstrates an achievable filling ratio of $(79\pm2)\,\%$ without the need of rearranging atoms to fill vacant traps., Comment: 7 pages, 6 figures

Published

2025

15. Eruptive YSOs in Cygnus-X: a mid-infrared variability study with NEOWISE and SPICY

Author

Morris, C., Guo, Z., Lucas, P. W., Miller, N., Peña, C. Contreras, and Kuhn, M. A.

Subjects

Astrophysics - Solar and Stellar Astrophysics, Astrophysics - Astrophysics of Galaxies

Abstract

The mass accretion process controls pre-main-sequence evolution, although its intrinsic instability has yet to be fully understood, especially towards the protostellar stage. In this work, we have undertaken a thorough examination of the mid-infrared variability of Spitzer-selected YSOs in the Cygnus-X star-forming region over the last decade, using the NEOWISE time series. This work compares two groups of young stars: embedded Class I objects, and the more evolved flat-spectrum/Class II sources. We report on 48 candidate eruptive variables within these groups, including 14 with characteristics that resemble the photometric behaviour of FUors. We also include an additional 20 YSOs, which are of a less certain categorisation. We find the candidate FUors to be an order of magnitude more common among the younger Class I systems than more evolved objects. A large number of the identified short-duration eruptive YSOs display mid-infrared colour behaviour that is redder-when-brighter, which contrasts with optically bright outbursts seen in YSOs. Finally, we note the unusual long-term rising behaviours of four Class I YSOs, with rise timescales longer than five years, which is far slower than 6-12 month timescale for the majority of optically discovered FUors. Additionally, our broader investigation of MIR variability for embedded class I YSOs shows that there is a higher incidence of high amplitude variability for these stars, than is seen in class II sources. This holds true for all variable class I YSOs, not just the eruptive sources., Comment: 20 Pages, 24 Figures and 3 Tables

Published

2025

16. Efficient Unsupervised Shortcut Learning Detection and Mitigation in Transformers

Author

Kuhn, Lukas, Sadiya, Sari, Schlotterer, Jorg, Seifert, Christin, and Roig, Gemma

Subjects

Computer Science - Machine Learning, Computer Science - Computer Vision and Pattern Recognition

Abstract

Shortcut learning, i.e., a model's reliance on undesired features not directly relevant to the task, is a major challenge that severely limits the applications of machine learning algorithms, particularly when deploying them to assist in making sensitive decisions, such as in medical diagnostics. In this work, we leverage recent advancements in machine learning to create an unsupervised framework that is capable of both detecting and mitigating shortcut learning in transformers. We validate our method on multiple datasets. Results demonstrate that our framework significantly improves both worst-group accuracy (samples misclassified due to shortcuts) and average accuracy, while minimizing human annotation effort. Moreover, we demonstrate that the detected shortcuts are meaningful and informative to human experts, and that our framework is computationally efficient, allowing it to be run on consumer hardware.

Published

2025

17. Achieving Critical Life Skills with Inquiry-Based Learning in Social Work Education: Self and Peer Assessment Reports

Author

Beth Archer-Kuhn, Natalie Beltrano, Juyan Wang, and Sahar Esmaeili

Abstract

This paper reflects the results from a 3-year quantitative study in higher education on inquiry-based learning (IBL). Utilizing primary data collection in a quasi-experimental survey, we examined the impact of IBL on six cohorts of undergraduate students. We aimed to answer our main research question: Can IBL be an effective pedagogy that helps students develop their key skills, through: (1) exploring how students assessed themselves and their peers on four skills; and (2) comparing student and peer assessments across social work courses utilizing IBL as pedagogy utilizing a social work course taught with traditional methods (non-IBL), and a nonsocial-work course using IBL. We analyzed the quantitative data applying bivariate analysis (paired and independent t-tests) with SPSS. We found that in social work and nonsocial-work courses using IBL as pedagogy, students and their peers identified an increase in the development of their key skills; peer-assessments were consistently higher than self-assessments. Our study reveals that IBL may offer an opportunity to provide authentic learning activities and assessments in social work education to support students' development of four key skills required for success in higher education.

Published

2025

18. Sensitivity of Chlorophyll Vertical Structure to Model Parameters in the Biogeochemical Southern Ocean State Estimate (B‐SOSE)

Author

Kuhn, Angela M, Mazloff, Matthew R, Gille, Sarah T, and Verdy, Ariane

Subjects

Earth Sciences, Oceanography, Life Below Water, Geophysics

Abstract

Abstract: The Southern Ocean is a region of intense air–sea exchange that plays a critical role for ocean circulation, global carbon cycling, and climate. Subsurface chlorophyll‐a maxima, annually recurrent features throughout the Southern Ocean, may increase the energy flux to higher trophic levels and facilitate downward carbon export. It is important that model parameterizations appropriately represent the chlorophyll vertical structure in the Southern Ocean. Using BGC‐Argo chlorophyll profiles and the Biogeochemical Southern Ocean State Estimate (B‐SOSE), we investigate the sensitivity of chlorophyll vertical structure to model parameters. Based on the sensitivity analysis results, we estimate optimized parameters, which efficiently improve the model consistency with observations. We characterize chlorophyll vertical structure in terms of Empirical Orthogonal Functions and define metrics to compare model results and observations in a series of parameter perturbation experiments. We show that chlorophyll magnitudes are likely to respond quasi‐symmetrically to perturbations in the analyzed parameters, while depth and thickness of the subsurface chlorophyll maximum show an asymmetric response. Perturbing the phytoplankton growth tends to generate more symmetric responses than perturbations in the grazing rate. We identify parameters that affect chlorophyll magnitude, subsurface chlorophyll or both and discuss insights into the processes that determine chlorophyll vertical structure in B‐SOSE. We highlight turbulence, differences in phytoplankton traits, and grazing parameterizations as key areas for improvement in models of the Southern Ocean.

Published

2025

19. OpenAI o1 System Card

Author

OpenAI, Jaech, Aaron, Kalai, Adam, Lerer, Adam, Richardson, Adam, El-Kishky, Ahmed, Low, Aiden, Helyar, Alec, Madry, Aleksander, Beutel, Alex, Carney, Alex, Iftimie, Alex, Karpenko, Alex, Passos, Alex Tachard, Neitz, Alexander, Prokofiev, Alexander, Wei, Alexander, Tam, Allison, Bennett, Ally, Kumar, Ananya, Saraiva, Andre, Vallone, Andrea, Duberstein, Andrew, Kondrich, Andrew, Mishchenko, Andrey, Applebaum, Andy, Jiang, Angela, Nair, Ashvin, Zoph, Barret, Ghorbani, Behrooz, Rossen, Ben, Sokolowsky, Benjamin, Barak, Boaz, McGrew, Bob, Minaiev, Borys, Hao, Botao, Baker, Bowen, Houghton, Brandon, McKinzie, Brandon, Eastman, Brydon, Lugaresi, Camillo, Bassin, Cary, Hudson, Cary, Li, Chak Ming, de Bourcy, Charles, Voss, Chelsea, Shen, Chen, Zhang, Chong, Koch, Chris, Orsinger, Chris, Hesse, Christopher, Fischer, Claudia, Chan, Clive, Roberts, Dan, Kappler, Daniel, Levy, Daniel, Selsam, Daniel, Dohan, David, Farhi, David, Mely, David, Robinson, David, Tsipras, Dimitris, Li, Doug, Oprica, Dragos, Freeman, Eben, Zhang, Eddie, Wong, Edmund, Proehl, Elizabeth, Cheung, Enoch, Mitchell, Eric, Wallace, Eric, Ritter, Erik, Mays, Evan, Wang, Fan, Such, Felipe Petroski, Raso, Filippo, Leoni, Florencia, Tsimpourlas, Foivos, Song, Francis, von Lohmann, Fred, Sulit, Freddie, Salmon, Geoff, Parascandolo, Giambattista, Chabot, Gildas, Zhao, Grace, Brockman, Greg, Leclerc, Guillaume, Salman, Hadi, Bao, Haiming, Sheng, Hao, Andrin, Hart, Bagherinezhad, Hessam, Ren, Hongyu, Lightman, Hunter, Chung, Hyung Won, Kivlichan, Ian, O'Connell, Ian, Osband, Ian, Gilaberte, Ignasi Clavera, Akkaya, Ilge, Kostrikov, Ilya, Sutskever, Ilya, Kofman, Irina, Pachocki, Jakub, Lennon, James, Wei, Jason, Harb, Jean, Twore, Jerry, Feng, Jiacheng, Yu, Jiahui, Weng, Jiayi, Tang, Jie, Yu, Jieqi, Candela, Joaquin Quiñonero, Palermo, Joe, Parish, Joel, Heidecke, Johannes, Hallman, John, Rizzo, John, Gordon, Jonathan, Uesato, Jonathan, Ward, Jonathan, Huizinga, Joost, Wang, Julie, Chen, Kai, Xiao, Kai, Singhal, Karan, Nguyen, Karina, Cobbe, Karl, Shi, Katy, Wood, Kayla, Rimbach, Kendra, Gu-Lemberg, Keren, Liu, Kevin, Lu, Kevin, Stone, Kevin, Yu, Kevin, Ahmad, Lama, Yang, Lauren, Liu, Leo, Maksin, Leon, Ho, Leyton, Fedus, Liam, Weng, Lilian, Li, Linden, McCallum, Lindsay, Held, Lindsey, Kuhn, Lorenz, Kondraciuk, Lukas, Kaiser, Lukasz, Metz, Luke, Boyd, Madelaine, Trebacz, Maja, Joglekar, Manas, Chen, Mark, Tintor, Marko, Meyer, Mason, Jones, Matt, Kaufer, Matt, Schwarzer, Max, Shah, Meghan, Yatbaz, Mehmet, Guan, Melody Y., Xu, Mengyuan, Yan, Mengyuan, Glaese, Mia, Chen, Mianna, Lampe, Michael, Malek, Michael, Wang, Michele, Fradin, Michelle, McClay, Mike, Pavlov, Mikhail, Wang, Miles, Wang, Mingxuan, Murati, Mira, Bavarian, Mo, Rohaninejad, Mostafa, McAleese, Nat, Chowdhury, Neil, Ryder, Nick, Tezak, Nikolas, Brown, Noam, Nachum, Ofir, Boiko, Oleg, Murk, Oleg, Watkins, Olivia, Chao, Patrick, Ashbourne, Paul, Izmailov, Pavel, Zhokhov, Peter, Dias, Rachel, Arora, Rahul, Lin, Randall, Lopes, Rapha Gontijo, Gaon, Raz, Miyara, Reah, Leike, Reimar, Hwang, Renny, Garg, Rhythm, Brown, Robin, James, Roshan, Shu, Rui, Cheu, Ryan, Greene, Ryan, Jain, Saachi, Altman, Sam, Toizer, Sam, Toyer, Sam, Miserendino, Samuel, Agarwal, Sandhini, Hernandez, Santiago, Baker, Sasha, McKinney, Scott, Yan, Scottie, Zhao, Shengjia, Hu, Shengli, Santurkar, Shibani, Chaudhuri, Shraman Ray, Zhang, Shuyuan, Fu, Siyuan, Papay, Spencer, Lin, Steph, Balaji, Suchir, Sanjeev, Suvansh, Sidor, Szymon, Broda, Tal, Clark, Aidan, Wang, Tao, Gordon, Taylor, Sanders, Ted, Patwardhan, Tejal, Sottiaux, Thibault, Degry, Thomas, Dimson, Thomas, Zheng, Tianhao, Garipov, Timur, Stasi, Tom, Bansal, Trapit, Creech, Trevor, Peterson, Troy, Eloundou, Tyna, Qi, Valerie, Kosaraju, Vineet, Monaco, Vinnie, Pong, Vitchyr, Fomenko, Vlad, Zheng, Weiyi, Zhou, Wenda, McCabe, Wes, Zaremba, Wojciech, Dubois, Yann, Lu, Yinghai, Chen, Yining, Cha, Young, Bai, Yu, He, Yuchen, Zhang, Yuchen, Wang, Yunyun, Shao, Zheng, and Li, Zhuohan

Subjects

Computer Science - Artificial Intelligence

Abstract

The o1 model series is trained with large-scale reinforcement learning to reason using chain of thought. These advanced reasoning capabilities provide new avenues for improving the safety and robustness of our models. In particular, our models can reason about our safety policies in context when responding to potentially unsafe prompts, through deliberative alignment. This leads to state-of-the-art performance on certain benchmarks for risks such as generating illicit advice, choosing stereotyped responses, and succumbing to known jailbreaks. Training models to incorporate a chain of thought before answering has the potential to unlock substantial benefits, while also increasing potential risks that stem from heightened intelligence. Our results underscore the need for building robust alignment methods, extensively stress-testing their efficacy, and maintaining meticulous risk management protocols. This report outlines the safety work carried out for the OpenAI o1 and OpenAI o1-mini models, including safety evaluations, external red teaming, and Preparedness Framework evaluations.

Published

2024

20. Deformation Measures for Granular Materials

Author

Kuhn, Matthew R.

Subjects

Condensed Matter - Soft Condensed Matter, Condensed Matter - Materials Science

Abstract

The paper presents a micromechanical representation of deformation in 2D granular materials. The representation is a generalization of K. Bagi's work and is based upon the void-cell approach of M. Satake. The general representation applies to a material region partitioned into polygonal subregions. This representation possesses a certain consistency that allows for a unique assignment of the contribution that each contact displacement makes to the average deformation of an assembly. The paper addresses construction of the particle graph and appropriate data structures for use with the Discrete Element Method. The approach is applied in a numerical simulation of a two-dimensional assembly of disks. The author presents results of the distributions of deformation and particle-group rotation, with a resolution of about a single particle diameter. Deformation was very nonuniform, even at low strains. Micro-bands, thin linear zones of intense rotation, were also observed.

Published

2024

21. Dspy-based Neural-Symbolic Pipeline to Enhance Spatial Reasoning in LLMs

Author

Wang, Rong, Sun, Kun, and Kuhn, Jonas

Subjects

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

Abstract

Large Language Models (LLMs) have demonstrated remarkable capabilities across various tasks, yet they often struggle with spatial reasoning. This paper presents a novel neural-symbolic framework that enhances LLMs' spatial reasoning abilities through iterative feedback between LLMs and Answer Set Programming (ASP). We evaluate our approach on two benchmark datasets: StepGame and SparQA, implementing three distinct strategies: (1) direct prompting baseline, (2) Facts+Rules prompting, and (3) DSPy-based LLM+ASP pipeline with iterative refinement. Our experimental results demonstrate that the LLM+ASP pipeline significantly outperforms baseline methods, achieving an average 82% accuracy on StepGame and 69% on SparQA, marking improvements of 40-50% and 8-15% respectively over direct prompting. The success stems from three key innovations: (1) effective separation of semantic parsing and logical reasoning through a modular pipeline, (2) iterative feedback mechanism between LLMs and ASP solvers that improves program rate, and (3) robust error handling that addresses parsing, grounding, and solving failures. Additionally, we propose Facts+Rules as a lightweight alternative that achieves comparable performance on complex SparQA dataset, while reducing computational overhead.Our analysis across different LLM architectures (Deepseek, Llama3-70B, GPT-4.0 mini) demonstrates the framework's generalizability and provides insights into the trade-offs between implementation complexity and reasoning capability, contributing to the development of more interpretable and reliable AI systems.

Published

2024

22. Minimal Acquisition Time Polarized Neutron Imaging of Current Induced Magnetic Fields in Superconducting Multifilamentary YBCO Tape

Author

Qvistgaard, Cedric Holme, Kuhn, Luise Theil, Sales, Morten, Shinohara, Takenao, Wulff, Anders C., Brock, Mette Bybjerg, and Schmidt, Søren

Subjects

Condensed Matter - Materials Science

Abstract

In this paper we showcase the strengths of polarized neutron imaging as a magnetic imaging technique through a case study on field-cooled multifilamentary YBCO tape carrying a transport current while containing a trapped magnetic field. The measurements were done at J-PARC's RADEN beamline, measuring a radiograph of a single polarization component, to showcase the analysis potential with minimal acquisition time. Regions of internal damage are easily and accurately identified as the technique probes the internal magnetic field of the sample, thereby avoiding surface-smearing effects. Quantitative measurements of the integrated field strength in various regions are acquired using time-of-flight information. Finally, we estimate the strength of the screening currents in the superconductor during the experiment by simulating an experiment with a model sample and comparing it to the experimental data. With this, we show that polarized neutron imaging is not only a useful tool for investigating magnetic structures but also for investigating samples carrying currents., Comment: 6 pages, 4 figures with total of 6 or 7 images (some bundles, some seperate)

Published

2024

23. A Systematic Review of Empirical Research on Graphing Numerical Data in K-12 STEM Education

Author

Ruf, Verena, Thues, Dominik, Malone, Sarah, Kuechemann, Stefan, Becker-Genschow, Sebastian, Vogel, Markus, Bruenken, Roland, and Kuhn, Jochen

Subjects

Physics - Physics Education

Abstract

Graphs are essential representations in the professions and education concerning the science, technology, engineering, and mathematics (STEM) disciplines. Beyond their academic relevance, graphs find extensive utility in everyday scenarios, ranging from news media to educational materials. This underscores the importance of people's being able to understand graphs. However, the ability to understand graphs is connected to the ability to create graphs. Therefore, in school education, particularly in STEM subjects, not only the understanding but also the skill of constructing graphs from numerical data is emphasized. Although constructing graphs is a skill that most people do not require in their everyday lives and professions, it is a well-established student activity that has been empirically studied several times. Therefore, since a synthesis of the research findings on this topic has not yet been conducted, a summary of the studies investigating graphing via various viewpoints and differing methods could be a valuable contribution. To provide an overview of the empirical literature on this important topic, our systematic review identifies how the construction of convention-based graphical representations of numerical data, referred to as graphing, has been studied in previous research, how effective graphing is, and which types of difficulties are encountered by students. Based on these aspects, we defined inclusion criteria that led to 50 peer-reviewed empirical studies on graphing in K-12 STEM education found in SCOPUS, ERIC, and PsychInfo. Graphing instruction seemed to be beneficial for student learning, not only improving graph construction but also graph interpretation skills. However, the students experienced various difficulties during graphing, both during graph construction and the interpretation and usage of data., Comment: 63 pages, 9 figures

Published

2024

24. Prospective report of the French QCD community to the ESPPU 2025 with respect to the program of the LHC Run 5 and beyond and future colliders at CERN

Author

Arata, Carolina, Arleo, François, Audurier, Benjamin, Baldisseri, Alberto, Bastid, Nicole, Batigne, Guillaume, Belikov, Iouri, Bluhm, Marcus, Bossu, Francesco, Borel, Hervé, Castellanos, Javier Castillo, Caucal, Paul, Cheshkov, Cvetan, Balbastre, Gustavo Conesa, del Valle, Zaida Conesa, Coquet, Maurice, Fernandez, Imanol Corredoira, Crochet, Philippe, Espagnon, Bruno, Faivre, Julien, Ferrero, Andrea, Francisco, Audrey, Fleuret, Frédéric, Flett, Chris, Furget, Christophe, Germain, Marie, Gossiaux, Pol Bernard, Guernane, Rachid, Guilbaud, Maxime, Guittiere, Manuel, Hadjidakis, Cynthia, Hippolyte, Boris, Kuhn, Christian, Lansberg, Jean-Philippe, Lopez, Xavier, Maire, Antonin, Mallick, Dukhishyam, Marquet, Cyrille, Martinez-Garcia, Ginés, Massacrier, Laure, Mattioli, Kara, Maurice, Émilie, Camacho, Carlos Munoz, Nahrgang, Marlene, Nefedov, Maxim, Niel, Élisabeth, Ozcelik, Melih A., Panebianco, Stefano, Pillot, Philippe, Pire, Bernard, Houssais, Sarah Porteboeuf, Rakotozafindrabe, Andry, Ramasubramanian, Niveditha, Robbe, Patrick, Sazdjian, Hagop, Senyukov, Serhiy, Suire, Christophe, Uras, Antonio, Wallon, Samuel, and Winn, Michael

Subjects

High Energy Physics - Phenomenology, High Energy Physics - Experiment, Nuclear Experiment, Nuclear Theory

Abstract

This document summarizes the prospective physics plans of the French QCD and Heavy-Ion community, including the experimental programs at the LHC Run 5 and beyond and future colliders at CERN, within the context of the French contribution to the update of the European Strategy in Particle Physics (ESPPU 2025), as discussed in the workshop on European Strategy for Particle Physics Update 2025 organised by the QCD GdR in Oct. 2024., Comment: 6.5 pages without title page and without references, no figures. Keywords: QCD, Heavy Ions, Quark Gluon Plasma, LHC, FCC

Published

2024

25. Concurrent operando neutron imaging and diffraction analysis revealing spatial lithiation phase evolution in an ultra-thick graphite electrode

Author

Strobl, Markus, Baur, Monica E., Samothraktis, Stavros, Malamud, Florencia, Zhang, Xiaolong, Tung, Patrick K. M., Schmidt, Søren, Woracek, R., Lee, J., Kiyanagi, Ryoji, Kuhn, Luise Theil, Segev, Inbal Gavish, and Ein-Eli, Yair

Subjects

Condensed Matter - Materials Science, Physics - Applied Physics

Abstract

Energy efficient, safe and reliable Li-ion batteries (LIBs) are required for a wide range of applications. Charging capabilities of thick electrodes still holding their stored high-energy is a most desirable characteristic in future advanced LIBs. The introduction of ultra-thick graphite anode meets limitations in internal electrode transport properties, leading to Li-ion gradients with detrimental consequences for battery cell performance and lifetime. Yet, there is a lack of experimental tools capable of providing a complete view of local processes and evolving gradients within such thick electrodes. Here, we introduce a multi-modal operando measurement approach, enabling quantitative spatio-temporal observations of Li concentrations and intercalation phases in ultra-thick, graphite electrodes. Neutron imaging and diffraction concurrently provide correlated information from the macroscopic scale of the cell and electrode down to the crystallographic scale portraying the intercalation and deintercalation processes. In particular, the evolving formation of the solid electrolyte interphase (SEI), observation of gradients in total lithium content, as well as in the formation of ordered LixC6 phases and trapped lithium have been mapped throughout the first charge-discharge cycle of the cell. Different lithiation stages co-exist during charging and discharging of an ultra-thick composite graphite-based electrode; delayed lithiation and delithiation processes are observed at the central region of the electrode, while the SEI formation, potential plating and dead lithium are predominantly found closer to the interface with the separator. The study furthermore emphasizes the potential of the method to study Li ion diffusion and the kinetics of lithiation phase formation in advanced ultra-thick electrodes.

Published

2024

26. MAUVE: An Ultraviolet Astrophysics Probe Mission Concept

Author

Balakrishnan, Mayura, Bowens, Rory, Aguirre, Fernando Cruz, Hughes, Kaeli, Jayaraman, Rahul, Kuhn, Emily, Louden, Emma, Louie, Dana R., McBride, Keith, McGrath, Casey, Payne, Jacob, Presser, Tyler, Reding, Joshua S., Rickman, Emily, Scrandis, Rachel, Symons, Teresa, Wiser, Lindsey, Jahoda, Keith, Kataria, Tiffany, Nash, Alfred, and X, Team

Subjects

Astrophysics - Instrumentation and Methods for Astrophysics, Astrophysics - Earth and Planetary Astrophysics, Astrophysics - Astrophysics of Galaxies, Astrophysics - High Energy Astrophysical Phenomena

Abstract

We present the mission concept "Mission to Analyze the UltraViolet universE" (MAUVE), a wide-field spectrometer and imager conceived during the inaugural NASA Astrophysics Mission Design School. MAUVE responds to the 2023 Announcement of Opportunity for Probe-class missions, with a budget cap of \$1 billion, and would hypothetically launch in 2031. However, the formulation of MAUVE was an educational exercise and the mission is not being developed further. The Principal Investigator-led science of MAUVE aligns with the priorities outlined in the 2020 Astrophysics Decadal Survey, enabling new characterizations of exoplanet atmospheres, the early-time light curves of some of the universe's most explosive transients, and the poorly-understood extragalactic background light. Because the Principal Investigator science occupies 30% of the observing time available during the mission's 5 yr lifespan, we provide an observing plan that would allow for 70% of the observing time to be used for General Observer programs, with community-solicited proposals. The onboard detector (THISTLE) claims significant heritage from the Space Telescope Imaging Spectrograph on Hubble, but extends its wavelength range down to the extreme UV. We note that MAUVE would be the first satellite in decades with the ability to access this regime of the electromagnetic spectrum. MAUVE has a field of view of 900" x 900" a photometric sensitivity extending to $m_{UV}\leq 24$, and a resolving power of $R\sim1000$. This paper provides full science and mission traceability matrices for this concept, and also outlines cost and scheduling timelines aimed at enabling a within-budget mission and an on-time launch., Comment: 21 pages, 15 figures. Published by the Publications of the Astronomical Society of the Pacific

Published

2024

27. Distributionally Robust Optimization

Author

Kuhn, Daniel, Shafiee, Soroosh, and Wiesemann, Wolfram

Subjects

Mathematics - Optimization and Control, Computer Science - Machine Learning, Statistics - Machine Learning

Abstract

Distributionally robust optimization (DRO) studies decision problems under uncertainty where the probability distribution governing the uncertain problem parameters is itself uncertain. A key component of any DRO model is its ambiguity set, that is, a family of probability distributions consistent with any available structural or statistical information. DRO seeks decisions that perform best under the worst distribution in the ambiguity set. This worst case criterion is supported by findings in psychology and neuroscience, which indicate that many decision-makers have a low tolerance for distributional ambiguity. DRO is rooted in statistics, operations research and control theory, and recent research has uncovered its deep connections to regularization techniques and adversarial training in machine learning. This survey presents the key findings of the field in a unified and self-contained manner.

Published

2024

28. AI Support Meets AR Visualization for Alice and Bob: Personalized Learning Based on Individual ChatGPT Feedback in an AR Quantum Cryptography Experiment for Physics Lab Courses

Author

Coban, Atakan, Dzsotjan, David, Küchemann, Stefan, Durst, Jürgen, Kuhn, Jochen, and Hoyer, Christoph

Subjects

Physics - Physics Education

Abstract

Quantum cryptography is a central topic in the quantum technology field that is particularly important for secure communication. The training of qualified experts in this field is necessary for continuous development. However, the abstract and complex nature of quantum physics makes the topic difficult to understand. Augmented reality (AR) allows otherwise invisible abstract concepts to be visualized and enables interactive learning, offering significant potential for improving quantum physics education in university lab courses. In addition, personalized feedback on challenging concepts can facilitate learning, and large language models (LLMs) like ChatGPT can effectively deliver such feedback. This study combines these two aspects and explores the impact of an AR-based quantum cryptography experiment with integrated ChatGPT-based feedback on university students' learning outcomes and cognitive processes. The study involved 38 students in a physics laboratory course at a German university and used four open-ended questions to measure learning outcomes and gaze data as a learning process assessment. Statistical analysis was used to compare scores between feedback and non-feedback questions, and the effect of ChatGPT feedback on eye-tracking data was examined. The results show that ChatGPT feedback significantly improved learning outcomes and affected gaze data. While the feedback on conceptual questions tended to direct attention to the visualizations of the underlying model, the feedback on questions about experimental procedures increased visual attention to the real experimental materials. Overall, the results show that AI-based feedback draws visual attention towards task-relevant factors and increases learning performance in general.

Published

2024

29. Unsteady aerodynamic response of pitching airfoils represented by Gaussian body forces

Author

Taschner, Emanuel, Deskos, Georgios, Kuhn, Michael B., van Wingerden, Jan-Willem, and Martinez-Tossas, Luis A.

Subjects

Physics - Fluid Dynamics

Abstract

The actuator line method (ALM) is an approach commonly used to represent lifting and dragging devices like wings and blades in large-eddy simulations (LES). The crux of the ALM is the projection of the actuator point forces onto the LES grid by means of a Gaussian regularisation kernel. The minimum width of the kernel is constrained by the grid size; however, for most practical applications like LES of wind turbines, this value is an order of magnitude larger than the optimal value which maximises accuracy. This discrepancy motivated the development of corrections for the actuator line, which, however, neglect the effect of unsteady spanwise shed vorticity. In this work, we develop a model for the impact of spanwise shed vorticity on the unsteady loading of an airfoil modelled as a Gaussian body force. The model solution is derived both in the time and frequency domain and features an explicit dependence on the Gaussian kernel width. We validate the model with LES within the linear regime of the lift curve for both pitch steps and periodic pitching with reduced frequencies of k=0.1, 0.2 and 0.3. The Gaussian kernel width affects, in particular, the amplitude of the unsteady lift, which can be up to 40% smaller than the quasi-steady amplitude within the considered range of reduced frequencies and kernel widths.

Published

2024

30. Quantum cryptography visualized: assessing visual attention on multiple representations with eye tracking in an AR-enhanced quantum cryptography student experiment

Author

Dzsotjan, David, Coban, Atakan, Hoyer, Christoph, Küchemann, Stefan, Durst, Jürgen, Donhauser, Anna, and Kuhn, Jochen

Subjects

Physics - Physics Education, Quantum Physics

Abstract

With the advent and development of real-world quantum technology applications, a practically-focused quantum education including student quantum experiments are gaining increasing importance in physics curricula. In this paper, using the DeFT framework, we present an analysis of the representations in our AR-enhanced quantum cryptography student experiment, in order to assess their potential for promoting conceptual learning. We also discuss learner visual attention with respect to the provided multiple representations based on the eye gaze data we have obtained from a pilot study where N=38 students carried out the tasks in our AR-enhanced quantum cryptography student experiment.

Published

2024

31. Mapping the Sun's coronal magnetic field using the Zeeman effect

Author

Schad, Thomas A., Petrie, Gordon J. D., Kuhn, Jeffrey R., Fehlmann, Andre, Rimmele, Thomas, Tritschler, Alexandra, Woeger, Friedrich, Scholl, Isabelle, Williams, Rebecca, Harrington, David, Paraschiv, Alin R., and Szente, Judit

Subjects

Astrophysics - Solar and Stellar Astrophysics

Abstract

Regular remote sensing of the magnetic field embedded within the million-degree solar corona is severely lacking. This reality impedes fundamental investigations of the nature of coronal heating, the generation of solar and stellar winds, and the impulsive release of energy into the solar system via flares and other eruptive phenomena. Resulting from advancements in large aperture solar coronagraphy, we report unprecedented maps of polarized spectra emitted at 1074 nm by Fe+12 atoms in the active corona. We detect clear signatures of the Zeeman effect that are produced by the coronal magnetic field along the optically thin path length of its formation. Our comparisons with global magnetohydrodynamic models highlight the valuable constraints that these measurements provide for coronal modeling efforts, which are anticipated to yield subsequent benefits for space weather research and forecasting., Comment: 23 pages, 10 figures, published in Science Advances

Published

2024

32. Spin structures on perfect complexes

Author

Kuhn, Nikolas

Subjects

Mathematics - Algebraic Geometry, 14F08 (Primary) 14N35, 14D20 (Secondary)

Abstract

We define spin structures on perfect complexes outside of characteristic two, generalizing the usual notion for vector bundles. We give an explicit local characterization of spin structures, and show that for an oriented quadratic complex $E$ on an algebraic stack, spin structures on $E$ are parametrized by a degree $2$ gerbe. As an application, we show how to lift the K-theory class of Oh-Thomas in DT4 theory to a genuine (twisted) sheaf., Comment: 91 pages. Comments welcome

Published

2024

33. Towards Fully Automatic Distributed Lower Bounds

Author

Balliu, Alkida, Brandt, Sebastian, Kuhn, Fabian, Olivetti, Dennis, and Saarhelo, Joonatan

Subjects

Computer Science - Distributed, Parallel, and Cluster Computing

Abstract

In the past few years, a successful line of research has lead to lower bounds for several fundamental local graph problems in the distributed setting. These results were obtained via a technique called round elimination. On a high level, the round elimination technique can be seen as a recursive application of a function that takes as input a problem $\Pi$ and outputs a problem $\Pi'$ that is one round easier than $\Pi$. Applying this function recursively to concrete problems of interest can be highly nontrivial, which is one of the reasons that has made the technique difficult to approach. The contribution of our paper is threefold. Firstly, we develop a new and fully automatic method for finding lower bounds of $\Omega(\log_\Delta n)$ and $\Omega(\log_\Delta \log n)$ rounds for deterministic and randomized algorithms, respectively, via round elimination. Secondly, we show that this automatic method is indeed useful, by obtaining lower bounds for defective coloring problems. We show that the problem of coloring the nodes of a graph with $3$ colors and defect at most $(\Delta - 3)/2$ requires $\Omega(\log_\Delta n)$ rounds for deterministic algorithms and $\Omega(\log_\Delta \log n)$ rounds for randomized ones. We note that lower bounds for coloring problems are notoriously challenging to obtain, both in general, and via the round elimination technique. Both the first and (indirectly) the second contribution build on our third contribution -- a new and conceptually simple way to compute the one-round easier problem $\Pi'$ in the round elimination framework. This new procedure provides a clear and easy recipe for applying round elimination, thereby making a substantial step towards the greater goal of having a fully automatic procedure for obtaining lower bounds in the distributed setting.

Published

2024

34. Physics-based inverse modeling of battery degradation with Bayesian methods

Author

Philipp, Micha C. J., Kuhn, Yannick, Latz, Arnulf, and Horstmann, Birger

Subjects

Physics - Chemical Physics, Physics - Applied Physics

Abstract

To further improve Lithium-ion batteries (LiBs), a profound understanding of complex battery processes is crucial. Physical models offer understanding but are difficult to validate and parameterize. Therefore, automated machine-learning methods (ML) are necessary to evaluate models with experimental data. Bayesian methods, e.g., Bayesian optimization for likelihood-free inference (EP-BOLFI), stand out as they capture uncertainties in models and data while granting meaningful parameterization. An important topic is prolonging battery lifetime, which is limited by degradation, such as the solid-electrolyte interphase (SEI) growth. As a case study, we apply EP-BOLFI to parametrize SEI growth models with synthetic and real degradation data. EP-BOLFI allows for incorporating human expertise in the form of suitable feature selection, which improves the parametrization. We show that even under impeded conditions, we achieve correct parameterization with reasonable uncertainty quantification, needing less computational effort than standard Markov chain Monte Carlo methods. Additionally, the physically reliable summary statistics show if parameters are strongly correlated and not unambiguously identifiable. Further, we investigate Bayesian alternately subsampled quadrature (BASQ), which calculates model probabilities, to confirm electron diffusion as the best theoretical model to describe SEI growth during battery storage.

Published

2024

35. Effective models for quantum optics with multilayer open cavities

Author

Saharyan, Astghik, Álvarez, Juan-Rafael, Kuhn, Axel, and Guérin, Stéphane

Subjects

Quantum Physics

Abstract

Effective models to describe the dynamics of an open cavity have been extensively discussed in the literature. In many of these models the cavity leakage to the outside is treated as a loss introduced phenomenologically. In contrast to these, we focus here on characterizing the outgoing photon using a novel approach where the outside is treated as part of the system. In such a global system, in order to separately characterize the photon inside and outside cavity, we demonstrate a first-principle derivation of a coherent cavity-reservoir coupling function for cavities with mirrors consisting of a stack of dielectric layers. In particular, we show that due to the effects induced by the multilayer nature of the cavity mirror, even in the standardly defined high-finesse cavity regime, the cavity-reservoir system description might differ from the one where the structure of the mirror is neglected. Based on this, we define a generalized cavity response function and a cavity-reservoir coupling function, which account for the longitudinal geometric structure of the cavity mirror. This allows us to define an effective reflectivity for the cavity with a multilayer mirror as if it was sitting in a well-defined effective mirror plane. We estimate the error of such a definition by considering cavities of different lengths and mirror structures. Finally, we apply this model to characterize the dynamics of a single photon produced in such a cavity and propagating outside.

Published

2024

36. Applications of the circle product with a right $Com$-module to the theory of commutative ring spectra

Author

Kuhn, Nicholas J.

Subjects

Mathematics - Algebraic Topology, Mathematics - Category Theory, 55P48 (Primary) 18M75, 55P43 (Secondary)

Abstract

If Com is the reduced commutative operad, the category of Com-algebras in spectra is the category of nounital commutative ring spectra. The theme of this survey is that many important constructions on Com-algebras are given by taking the derived circle product with well chosen right Com-modules. Examples of constructions arising this way include the tensor product of a based space K with such an algebra I, and TQ(I), the Topological Andre-Quillen homology spectrum of I. We then show how filtrations of right Com-modules can be used to filter such constructions. A natural decreasing filtration on right Com-modules, when specialized to the Com-bimodule Com, defines the augmentation ideal tower of I, built out of the extended powers of TQ(I). A natural increasing filtration on right Com-modules, when specialized to the right Com-module used to define TQ(I), defines a filtration on TQ(I) built out of I and the spaces in the Lie cooperad. There are two versions of this in the literature -- by the author and by Behrens and Rezk -- and our setting here makes it easy to prove that these agree. Much of this applies with Com replaced by a more general reduced operad, and we make a few remarks about this., Comment: 18 pages

Published

2024

37. Development of a Scale of Skills in Teaching Work and Innovation in University Education

Author

Luis Felipe Dias Lopes, Fabiane Volpato Chiapinoto, Martiele Gonçalves Moreira, Nuvea Kuhn, Fillipe Grando Lopes, Luciana Davi Traverso, Deoclécio Junior Cardoso Silva, and Gilnei Luiz de Moura

Abstract

This study aimed to validate a scale for subjectively measuring teaching competencies for innovation in higher education. The scale was developed by creating a set of items that underwent content validity through the Delphi technique and face validity. A survey was then conducted with 523 higher education professors. The resulting scale, called the STW-ICE Scale, consists of four dimensions: continuing education, creativity, digital fluency, and scientificity. We found that the scale has psychometric properties that allow for subjective measurement of the proposed competencies. The SmartPLS and SPSS software were used for data assessment. Additionally, we found high levels of teaching skills in the sample for all dimensions. Based on these findings, this study successfully achieved its goal of developing and validating a scale. We hope that this scale will be used not only for classificatory diagnoses but also to encourage reflection on teaching practices in higher education with a focus on innovation.

Published

2024

38. Beyond the 'Improvement Imperative': Writing to Change Oneself and the World in First Year Composition

Author

Heather Lindenman, Margaret Chapman, Jennifer Eidum, Lina Kuhn, and Li Li

Abstract

For almost 40 years, our university's first year writing program has included a shared outcome: "Students will appreciate the capacity of writing to change oneself and the world." This outcome, unlike our more typical composition goals concerning writing processes, rhetorical acumen, and critical research abilities, had never been assessed. Based on survey data collected from first year writing students (n=145) during the Spring 2020 semester, this article offers a student-generated construct of what "writing to change oneself and the world" meant to students at the beginning of the COVID-19 pandemic. We explore how this nebulous outcome helps us better understand the ways students situate themselves in enacting change as well as the productively uncertain relationship between self and world for student writers. We also consider how the outcome's open-endedness creates space for meaningful, writing-adjacent learning.

Published

2024

39. The Influence of Technostress on Anxiety Disorder in Higher Education Students during the COVID-19 Pandemic

Author

Luis Felipe Dias Lopes, Deoclécio Junior Cardoso da Silva, Nuvea Kuhn, Fabiane Volpato Chiapinoto, and Mauren Pimentel Lima

Abstract

This article aimed to investigate the relationship between technostress and anxiety disorder in Brazilian public higher education students during the COVID-19 pandemic. The quantitative study was based on primary data (n = 1981) collected through the structured questionnaire of a population of Brazilian public higher education students. Partial least squares structural equation modelling method and multigroup analysis were used for data analyses and to compare the constructs. Of the five dimensions of technostress analysed, techno-uncertainty and techno-complexity did not influence generalized anxiety disorder. Nonetheless, the results demonstrated that technostress was present in the lives of the students studied, demonstrating significant relationships with generalized anxiety disorder. Therefore, this study presents relevant reflections regarding prolonged exposure and additional factors that technology influenced students' quality of life, thus generating strategic alignments to improve the mental health of students who went through the remote teaching process imposed by the COVID-19 pandemic.

Published

2024

40. Defining Immersive Learning

Author

Phillip Motley, Beth Archer-Kuhn, Catharine Dishke Hondzel, Jennifer Dobbs-Oates, Michelle Eady, Janel Seeley, and Rosemary Tyrrell

Abstract

Immersive learning practices (ILPs) in higher education are multidisciplinary in nature and varied in levels of integration into the student learning process. They appear in a variety of higher education programs such as teacher education, social work, law, and health sciences, and in practices such as service-learning, study away, internships, and foreign-language instruction. Based on observations of teaching and data from an open-ended survey and semi-structured interviews with post-secondary educators from three different countries, this study theorizes that immersive learning practices are composed of six distinct underlying theoretical components that work in combination. These six components can be used to describe, define, compare, and design different types of structured ILPs. This study suggests that ILPs are pedagogically distinct from other forms of engaged and experiential learning.

Published

2024

41. The More the Better? A Systematic Review and Meta-Analysis of the Benefits of More than Two External Representations in STEM Education

Author

Eva Rexigel, Jochen Kuhn, Sebastian Becker, and Sarah Malone

Abstract

Over the last decades, a multitude of results in educational and psychological research have shown that the implementation of multiple external representations (MERs) in educational contexts represents a valuable tool for fostering learning and problem-solving skills. The context of science, technology, engineering, and mathematics (STEM) education has received great attention because it necessitates using various symbolic (e.g., text and formula) and graphical representations (e.g., pictures and graphs) to convey subject content. Research has mainly explored effects of combining two representations, but the potential benefits of integrating more than two representations on students' learning remain underexplored. This gap limits our understanding of promising educational practices and restricts the development of effective teaching strategies catering to students' cognitive needs. To close this gap, we conducted a systematic review of 46 studies and a meta-analysis that included 132 effect sizes to evaluate the effectiveness of using more than two representations in STEM education and to identify moderating factors influencing learning and problem-solving. A network diagram analysis revealed that the advantages of learning and problem-solving with MERs are also applicable to more than two representations. A subsequent meta-analysis revealed that the learning with more than two representations in STEM can have advantageous effects on students cognitive load (Hedges'g = 0.324, p < 0.001, 95% CI [0.164, 0.484]) and performance (Hedges' g = 0.118, p < 0.001, 95% CI [0.050, 0.185]) compared to learning with two representations without notable differences in learning time. The analysis of moderating factors revealed that benefits of learning with more than two representations primarily depend on the provision of appropriate support.

Published

2024

42. Measuring and Validating a Transformation Learning Survey through Social Work Education Research

Author

Ana Isabel Corchado Castillo, Michael Wallengren-Lynch, Beth Archer-Kuhn, and Tara Earls Larrison

Abstract

This paper presents a reliable tool for measuring transformative learning in undergraduate social work education, the Social Work Transformation Survey (SWTS). The SWTS was developed from a qualitative theoretical model and translated into quantitative scales. The study collected data from 248 undergraduate students from eight countries who participated in a transnational project using creative journaling to facilitate transformative learning. Structural equation modelling was used to validate the internal structure of the SWTS. We then confirmed the measures' reliability, and subsequently the effectiveness of creative journaling practices as a pedagogy for facilitating transformative learning in social work students. This paper highlights the potential of combining qualitative and quantitative research approaches to develop educational evaluation tools for higher education settings and presents one specific measure for transformative learning.

Published

2024

43. Indigenous Research Ethics and Tribal Research Review Boards in the United States: Examining Online Presence and Themes across Online Documentation

Author

Nicole S. Kuhn, Ethan J. Kuhn, Michael Vendiola, and Clarita Lefthand-Begay

Abstract

Researchers seeking to engage in projects related to Tribal communities and their citizens, lands, and non-human relatives are responsible for understanding and abiding by each Tribal nation's research laws and review processes. Few studies, however, have described the many diverse forms of Tribal research review systems across the United States (US). This study provides one of the most comprehensive examinations of research review processes administered by Tribal Research Review Boards (TRRBs) in the US. Through a systematic analysis, we consider TRRBs' online presence, online documentation, and themes across documents, for five entity types: Tribal nations and Tribal consortiums, Tribal colleges and universities, Tribal health organizations, Indian Health Services, and other Tribal organizations. Results include an assessment of online presence for 98 potential TRRBs, identification of 118 publicly available online documents, and analysis of 41 themes across four document types: Tribal research codes and TRRBs' guidelines, applications, and post-approval documents. Altogether, this research provides a macro-level analysis of the most common types of TRRBs in the US in an effort to increase researchers' understanding of these important processes as they prepare to ethically engage Tribal communities in research. These results aim to empower Tribal decision makers as they align their TRRBs' online visibility and documentation with community priorities and strengthen their protections for the rights and wellbeing of their citizens and community. Ultimately, by expanding our knowledge of TRRBs across the US, this contribution seeks to uphold Tribal sovereignty in research and promote ethical approaches to research with Indigenous communities.

Published

2024

44. Two decades of three-dimensional movement data from adult female northern elephant seals.

Author

Costa, Daniel, Holser, Rachel, Keates, Theresa, Adachi, Taiki, Beltran, Roxanne, Champagne, Cory, Crocker, Daniel, Favilla, Arina, Fowler, Melinda, Gallo-Reynoso, Juan, Goetsch, Chandra, Hassrick, Jason, Hückstädt, Luis, Kendall-Bar, Jessica, Kienle, Sarah, Kuhn, Carey, Maresh, Jennifer, Maxwell, Sara, McDonald, Birgitte, McHuron, Elizabeth, Morris, Patricia, Naito, Yasuhiko, Pallin, Logan, Peterson, Sarah, Robinson, Patrick, Simmons, Samantha, Takahashi, Akinori, Teuschel, Nicole, Tift, Michael, Tremblay, Yann, Villegas-Amtmann, Stella, and Yoda, Ken

Subjects

Seals, Earless, Animals, Female, Diving, Movement, North America

Abstract

Northern elephant seals (Mirounga angustirostris) have been integral to the development and progress of biologging technology and movement data analysis, which continue to improve our understanding of this and other species. Adult female elephant seals at Año Nuevo Reserve and other colonies along the west coast of North America were tracked annually from 2004 to 2020, resulting in a total of 653 instrument deployments. This paper outlines the compilation and curation process of these high-resolution diving and location data, now accessible in two Dryad repositories. The code used for data processing alongside the corresponding workflow is available through GitHub and Zenodo. This data set represents 3,844,927 dives and 596,815 locations collected from 475 individual seals with 178 repeat samplings over 17 years. We anticipate that these data will stimulate further analysis and investigation into elephant seal biology and aid in developing new analytical approaches for large marine predators.

Published

2024

45. Image processing tools for petabyte-scale light sheet microscopy data

Author

Ruan, Xiongtao, Mueller, Matthew, Liu, Gaoxiang, Görlitz, Frederik, Fu, Tian-Ming, Milkie, Daniel E, Lillvis, Joshua L, Kuhn, Alexander, Gan Chong, Johnny, Hong, Jason Li, Herr, Chu Yi Aaron, Hercule, Wilmene, Nienhaus, Marc, Killilea, Alison N, Betzig, Eric, and Upadhyayula, Srigokul

Subjects

Biological Sciences, Bioengineering, Biomedical Imaging, Networking and Information Technology R&D (NITRD), 1.4 Methodologies and measurements, Generic health relevance, Software, Image Processing, Computer-Assisted, Microscopy, Imaging, Three-Dimensional, Animals, Humans, Algorithms, Technology, Medical and Health Sciences, Developmental Biology, Biological sciences

Abstract

Light sheet microscopy is a powerful technique for high-speed three-dimensional imaging of subcellular dynamics and large biological specimens. However, it often generates datasets ranging from hundreds of gigabytes to petabytes in size for a single experiment. Conventional computational tools process such images far slower than the time to acquire them and often fail outright due to memory limitations. To address these challenges, we present PetaKit5D, a scalable software solution for efficient petabyte-scale light sheet image processing. This software incorporates a suite of commonly used processing tools that are optimized for memory and performance. Notable advancements include rapid image readers and writers, fast and memory-efficient geometric transformations, high-performance Richardson-Lucy deconvolution and scalable Zarr-based stitching. These features outperform state-of-the-art methods by over one order of magnitude, enabling the processing of petabyte-scale image data at the full teravoxel rates of modern imaging cameras. The software opens new avenues for biological discoveries through large-scale imaging experiments.

Published

2024

46. Y and mitochondrial chromosomes in the heterogeneous stock rat population

Author

Okamoto, Faith, Chitre, Apurva S, Missfeldt Sanches, Thiago, Chen, Denghui, Munro, Daniel, Aron, Allegra T, Beeson, Angela, Bimschleger, Hannah V, Eid, Maya, Garcia Martinez, Angel G, Han, Wenyan, Holl, Katie, Jackson, Tyler, Johnson, Benjamin B, King, Christopher P, Kuhn, Brittany N, Lamparelli, Alexander C, Netzley, Alesa H, Nguyen, Khai-Minh H, Peng, Beverly F, Tripi, Jordan A, Wang, Tengfei, Ziegler, Kendra S, Adams, Douglas J, Baud, Amelie, Carrette, Lieselot LG, Chen, Hao, de Guglielmo, Giordano, Dorrestein, Pieter, George, Olivier, Ishiwari, Keita, Jablonski, Monica M, Jhou, Thomas C, Kallupi, Marsida, Knight, Rob, Meyer, Paul J, Solberg Woods, Leah C, Polesskaya, Oksana, and Palmer, Abraham A

Subjects

Biological Sciences, Genetics, Substance Misuse, Human Genome, 2.1 Biological and endogenous factors, Animals, Rats, Y Chromosome, Mitochondria, Male, Genome-Wide Association Study, Female, Genotype, heterogeneous stock, rat, mitochondria, haplotype, low-coverage, PheWAS, RNA-seq, Biochemistry and cell biology, Statistics

Abstract

Genome-wide association studies typically evaluate the autosomes and sometimes the X Chromosome, but seldom consider the Y or mitochondrial (MT) Chromosomes. We genotyped the Y and MT Chromosomes in heterogeneous stock (HS) rats (Rattus norvegicus), an outbred population created from 8 inbred strains. We identified 8 distinct Y and 4 distinct MT Chromosomes among the 8 founders. However, only 2 types of each nonrecombinant chromosome were observed in our modern HS rat population (generations 81-97). Despite the relatively large sample size, there were virtually no significant associations for behavioral, physiological, metabolome, or microbiome traits after correcting for multiple comparisons. However, both Y and MT Chromosomes were strongly associated with the expression of a few genes located on those chromosomes, which provided a positive control. Our results suggest that within modern HS rats there are no Y and MT Chromosomes differences that strongly influence behavioral or physiological traits. These results do not address other ancestral Y and MT Chromosomes that do not appear in modern HS rats, nor do they address effects that may exist in other rat populations, or in other species.

Published

2024

47. Changes to virus taxonomy and the ICTV Statutes ratified by the International Committee on Taxonomy of Viruses (2024).

Author

Simmonds, Peter, Adriaenssens, Evelien, Lefkowitz, Elliot, Oksanen, Hanna, Siddell, Stuart, Zerbini, Francisco, Alfenas-Zerbini, Poliane, Aylward, Frank, Dempsey, Donald, Dutilh, Bas, Freitas-Astúa, Juliana, García, María, Hendrickson, R, Hughes, Holly, Junglen, Sandra, Krupovic, Mart, Kuhn, Jens, Lambert, Amy, Łobocka, Małgorzata, Mushegian, Arcady, Penzes, Judit, Muñoz, Alejandro, Robertson, David, Roux, Simon, Rubino, Luisa, Sabanadzovic, Sead, Smith, Donald, Suzuki, Nobuhiro, Turner, Dann, Van Doorslaer, Koenraad, Vandamme, Anne-Mieke, and Varsani, Arvind

Subjects

Viruses, Terminology as Topic, Classification, Phylogeny, Virology

Abstract

This article reports changes to virus taxonomy and taxon nomenclature that were approved and ratified by the International Committee on Taxonomy of Viruses (ICTV) in April 2024. The entire ICTV membership was invited to vote on 203 taxonomic proposals that had been approved by the ICTV Executive Committee (EC) in July 2023 at the 55th EC meeting in Jena, Germany, or in the second EC vote in November 2023. All proposals were ratified by online vote. Taxonomic additions include one new phylum (Ambiviricota), one new class, nine new orders, three new suborders, 51 new families, 18 new subfamilies, 820 new genera, and 3547 new species (excluding taxa that have been abolished). Proposals to complete the process of species name replacement to the binomial (genus + species epithet) format were ratified. Currently, a total of 14,690 virus species have been established.

Published

2024

48. Preliminary Examination of the Effects of Focused Ultrasound on Living Skin and Temperature at the Skin–Transducer Interface

Author

Bishay, Andrew AED, Swenson, Andrew J, Spivak, Norman M, Schafer, Samantha, Bych, Brendan P, Gilles, Spencer D, Dorobczynski, Christopher, Korb, Alexander S, Schafer, Mark E, Kuhn, Taylor P, Monti, Martin M, and Bystritsky, Alexander

Subjects

Engineering, Biomedical Engineering, Clinical Research, Biomedical Imaging, heating, skin, temperature, ultrasound, Biomedical engineering

Abstract

Transcranial Focused Ultrasound Stimulation (tFUS) is a new, rapidly growing field related to the study and treatment of brain circuits. Establishing safety cutoffs for focused ultrasound is crucial for non-ablative neurological ultrasound experiments. In addition to potential focal heating, there is concern about temperature elevation at the skin surface. Much work has been performed at or near the FDA guideline of ISPTA.3 = 720 mW/cm2, which technically only applies to diagnostic, not therapeutic, ultrasound. Furthermore, evidence of brain tissue damage on histology in the focal region has been shown not to occur until ISPTA.3 > 14 W/cm2. Therefore, this study was conducted across a range of intensities between these two values, evaluating both subjective and objective side effects. Subjective side effects encompassed any discomfort experienced during and after focused ultrasound stimulation, while objective side effects included clinical findings of skin irritation, such as erythema, edema, or burns. This study also examined how the skin temperature at the skin-transducer interface would change in order to assess whether there would be significant heating. The subjects did not experience any unpleasant sensation at the point of stimulation, including heat or pain, and no objective findings of skin irritation were observed following stimulation and the removal of the transducer. In addition, there was no intensity-dependent effect on temperature, and the maximal rise in temperature was 1.45 °C, suggesting that these parameters do not result in the heating of the skin at the interface in such a way that poses a risk to subjects when operating at or below the intensities tested in this experiment.

Published

2024

49. Permafrost Region Greenhouse Gas Budgets Suggest a Weak CO2 Sink and CH4 and N2O Sources, But Magnitudes Differ Between Top‐Down and Bottom‐Up Methods

Author

Hugelius, G, Ramage, J, Burke, E, Chatterjee, A, Smallman, TL, Aalto, T, Bastos, A, Biasi, C, Canadell, JG, Chandra, N, Chevallier, F, Ciais, P, Chang, J, Feng, L, Jones, MW, Kleinen, T, Kuhn, M, Lauerwald, R, Liu, J, López‐Blanco, E, Luijkx, IT, Marushchak, ME, Natali, SM, Niwa, Y, Olefeldt, D, Palmer, PI, Patra, PK, Peters, W, Potter, S, Poulter, B, Rogers, BM, Riley, WJ, Saunois, M, Schuur, EAG, Thompson, RL, Treat, C, Tsuruta, A, Turetsky, MR, Virkkala, A‐M, Voigt, C, Watts, J, Zhu, Q, and Zheng, B

Subjects

Climate Change Impacts and Adaptation, Environmental Sciences, Climate Action, RECCAP2, permafrost region, carbon budget, carbon dioxide, methane, nitrous oxide, Atmospheric Sciences, Geochemistry, Oceanography, Meteorology & Atmospheric Sciences, Geoinformatics, Climate change impacts and adaptation

Abstract

Large stocks of soil carbon (C) and nitrogen (N) in northern permafrost soils are vulnerable to remobilization under climate change. However, there are large uncertainties in present-day greenhouse gas (GHG) budgets. We compare bottom-up (data-driven upscaling and process-based models) and top-down (atmospheric inversion models) budgets of carbon dioxide (CO2), methane (CH4) and nitrous oxide (N2O) as well as lateral fluxes of C and N across the region over 2000–2020. Bottom-up approaches estimate higher land-to-atmosphere fluxes for all GHGs. Both bottom-up and top-down approaches show a sink of CO2 in natural ecosystems (bottom-up: −29 (−709, 455), top-down: −587 (−862, −312) Tg CO2-C yr−1) and sources of CH4 (bottom-up: 38 (22, 53), top-down: 15 (11, 18) Tg CH4-C yr−1) and N2O (bottom-up: 0.7 (0.1, 1.3), top-down: 0.09 (−0.19, 0.37) Tg N2O-N yr−1). The combined global warming potential of all three gases (GWP-100) cannot be distinguished from neutral. Over shorter timescales (GWP-20), the region is a net GHG source because CH4 dominates the total forcing. The net CO2 sink in Boreal forests and wetlands is largely offset by fires and inland water CO2 emissions as well as CH4 emissions from wetlands and inland waters, with a smaller contribution from N2O emissions. Priorities for future research include the representation of inland waters in process-based models and the compilation of process-model ensembles for CH4 and N2O. Discrepancies between bottom-up and top-down methods call for analyses of how prior flux ensembles impact inversion budgets, more and well-distributed in situ GHG measurements and improved resolution in upscaling techniques.

Published

2024

50. Optimism in the Face of Ambiguity Principle for Multi-Armed Bandits

Author

Li, Mengmeng, Kuhn, Daniel, and Taşkesen, Bahar

Subjects

Computer Science - Machine Learning, Statistics - Machine Learning

Abstract

Follow-The-Regularized-Leader (FTRL) algorithms often enjoy optimal regret for adversarial as well as stochastic bandit problems and allow for a streamlined analysis. Nonetheless, FTRL algorithms require the solution of an optimization problem in every iteration and are thus computationally challenging. In contrast, Follow-The-Perturbed-Leader (FTPL) algorithms achieve computational efficiency by perturbing the estimates of the rewards of the arms, but their regret analysis is cumbersome. We propose a new FTPL algorithm that generates optimal policies for both adversarial and stochastic multi-armed bandits. Like FTRL, our algorithm admits a unified regret analysis, and similar to FTPL, it offers low computational costs. Unlike existing FTPL algorithms that rely on independent additive disturbances governed by a \textit{known} distribution, we allow for disturbances governed by an \textit{ambiguous} distribution that is only known to belong to a given set and propose a principle of optimism in the face of ambiguity. Consequently, our framework generalizes existing FTPL algorithms. It also encapsulates a broad range of FTRL methods as special cases, including several optimal ones, which appears to be impossible with current FTPL methods. Finally, we use techniques from discrete choice theory to devise an efficient bisection algorithm for computing the optimistic arm sampling probabilities. This algorithm is up to $10^4$ times faster than standard FTRL algorithms that solve an optimization problem in every iteration. Our results not only settle existing conjectures but also provide new insights into the impact of perturbations by mapping FTRL to FTPL.

Published

2024