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10,126 results on '"Haller, P"'

1. Reducing Finite Element Models of Bolted Joints using Spectral Submanifolds

Author

Morsy, Ahmed Amr, Xu, Zhenwei, Tiso, Paolo, and Haller, George

Subjects
Mathematics - Dynamical Systems
Abstract

Bolted joints can exhibit significantly nonlinear dynamics. Finite Element Models (FEMs) of this phenomenon require fine spatial discretizations, inclusion of nonlinear contact and friction laws, as well as geometric nonlinearity. Owing to the nonlinearity and high dimensionality of such models, full-order dynamic simulations are computationally expensive. In this work, we use the theory of Spectral Submanifolds (SSMs) to construct FEM-based data-driven Reduced Order Models (ROMs). The data used for constructing the model consists of a few transient trajectories of the full unforced system. Using this data, we obtain an SSM-reduced model that also predicts the forced nonlinear dynamics. We illustrate the method on a 187,920-dimensional FEM of the recent 2021 Tribomechadynamics benchmark structure. In this case, the SSM-based ROM is a 4-dimensional model that captures the internal resonance of the structure. The SSM-reduced model gives fast and accurate predictions of the experimental forced dynamics and allows to reproduce the local friction and contact stresses on the interfaces of the joint.

Published
2024

2. NAB2::STAT6 fusions and genome-wide DNA methylation profiling: Predictors of patient outcomes in meningeal solitary fibrous tumors.

Author

Eschbacher, Kathryn, Tran, Quynh, Moskalev, Evgeny, Jenkins, Sarah, Fritchie, Karen, Stoehr, Robert, Caron, Alissa, Link, Michael, Brown, Paul, Guajardo, Andrew, Brat, Daniel, Wu, Ashley, Santagata, Sandro, Louis, David, Brastianos, Priscilla, Kaplan, Alexander, Alexander, Brian, Rossi, Sabrina, Ferrarese, Fabio, Raleigh, David, Nguyen, Minh, Gross, John, Velazquez Vega, Jose, Rodriguez, Fausto, Perry, Arie, Martinez-Lage, Maria, Orr, Brent, Haller, Florian, and Giannini, Caterina

Subjects
CNS WHO grade, NAB2::STAT6, TERT, meningeal solitary fibrous tumor, solitary fibrous tumor, Humans, Female, Male, Middle Aged, Solitary Fibrous Tumors, DNA Methylation, STAT6 Transcription Factor, Adult, Repressor Proteins, Aged, Meningeal Neoplasms, Young Adult, Adolescent, Aged, 80 and over, Child, Prognosis, Telomerase
Abstract

Meningeal solitary fibrous tumors (SFT) are rare and have a high frequency of local recurrence and distant metastasis. In a cohort of 126 patients (57 female, 69 male; mean age at surgery 53.0 years) with pathologically confirmed meningeal SFTs with extended clinical follow-up (median 9.9 years; range 15 days-43 years), we performed extensive molecular characterization including genome-wide DNA methylation profiling (n = 80) and targeted TERT promoter mutation testing (n = 98). Associations were examined with NAB2::STAT6 fusion status (n = 101 cases; 51 = ex5-7::ex16-17, 26 = ex4::ex2-3; 12 = ex2-3::exANY/other and 12 = no fusion) and placed in the context of 2021 Central Nervous System (CNS) WHO grade. NAB2::STAT6 fusion breakpoints (fusion type) were significantly associated with metastasis-free survival (MFS) (p = 0.03) and, on multivariate analysis, disease-specific survival (DSS) when adjusting for CNS WHO grade (p = 0.03). DNA methylation profiling revealed three distinct clusters: Cluster 1 (n = 38), Cluster 2 (n = 22), and Cluster 3 (n = 20). Methylation clusters were significantly associated with fusion type (p

Published
2024

3. Rapid stochastic spatial light modulator calibration and pixel crosstalk optimisation

Author

Schroff, P., Haller, E., Kuhr, S., and La Rooij, A.

Subjects
Physics - Optics, Physics - Atomic Physics, Quantum Physics
Abstract

Holographic light potentials generated by phase-modulating liquid-crystal spatial light modulators (SLMs) are widely used in quantum technology applications. Accurate calibration of the wavefront and intensity profile of the laser beam at the SLM display is key to the high fidelity of holographic potentials. Here, we present a new calibration technique that is faster than previous methods while maintaining the same level of accuracy. By employing stochastic optimisation and random speckle intensity patterns, we calibrate a digital twin that accurately models the experimental setup. This approach allows us to measure the wavefront at the SLM to within $\lambda /170$ in ~ 5 minutes using only 10 SLM phase patterns, a significant speedup over state-of-the-art techniques. Additionally, our digital twin models pixel crosstalk on the liquid-crystal SLM, enabling rapid calibration of model parameters and reducing the error in light potentials by a factor of ~ 5 without losing efficiency. Our fast calibration technique will simplify the implementation of high-fidelity light potentials in, for example, quantum-gas microscopes and neutral-atom tweezer arrays where high-NA objectives and thermal lensing can deform the wavefront significantly. Applications in the field of holographic displays that require high image fidelity will benefit from the novel pixel crosstalk calibration, especially for displays with a large field of view and increased SLM diffraction angles.

Published
2024

4. EMTeC: A Corpus of Eye Movements on Machine-Generated Texts

Author

Bolliger, Lena Sophia, Haller, Patrick, Cretton, Isabelle Caroline Rose, Reich, David Robert, Kew, Tannon, and Jäger, Lena Ann

Subjects
Computer Science - Computation and Language
Abstract

The Eye Movements on Machine-Generated Texts Corpus (EMTeC) is a naturalistic eye-movements-while-reading corpus of 107 native English speakers reading machine-generated texts. The texts are generated by three large language models using five different decoding strategies, and they fall into six different text type categories. EMTeC entails the eye movement data at all stages of pre-processing, i.e., the raw coordinate data sampled at 2000 Hz, the fixation sequences, and the reading measures. It further provides both the original and a corrected version of the fixation sequences, accounting for vertical calibration drift. Moreover, the corpus includes the language models' internals that underlie the generation of the stimulus texts: the transition scores, the attention scores, and the hidden states. The stimuli are annotated for a range of linguistic features both at text and at word level. We anticipate EMTeC to be utilized for a variety of use cases such as, but not restricted to, the investigation of reading behavior on machine-generated text and the impact of different decoding strategies; reading behavior on different text types; the development of new pre-processing, data filtering, and drift correction algorithms; the cognitive interpretability and enhancement of language models; and the assessment of the predictive power of surprisal and entropy for human reading times. The data at all stages of pre-processing, the model internals, and the code to reproduce the stimulus generation, data pre-processing and analyses can be accessed via https://github.com/DiLi-Lab/EMTeC/.

Published
2024

5. A Bregman-Sinkhorn Algorithm for the Maximum Weight Independent Set Problem

Author

Haller, Stefan and Savchynskyy, Bogdan

Subjects
Mathematics - Optimization and Control
Abstract

We propose a scalable approximate algorithm for the NP-hard maximum-weight independent set problem. The core of our algorithm is a dual coordinate descent applied to a smoothed LP relaxation of the problem. This technique is referred to as Bregman method or Sinkhorn algorithm in the literature. Our algorithm addresses a family of clique cover LP relaxations, where the constraints are determined by the set of cliques covering the underlying graph. The objective function of the relaxation is smoothed with an entropy term. An important question determining efficiency of our algorithm is the control of the smoothing level over the course of optimization. While several dedicated techniques have been considered in the literature to this end, we propose a new one based on estimation of the relaxed duality gap. To make this estimation possible, we developed a new projection method to the feasible set of the considered LP relaxation. We experimentally show that our technique notably outperforms the standard one based on feasibility estimation. Additionally to solving the relaxed dual, we utilize a simple and very efficient primal heuristic to obtain feasible integer solutions of the initial non-relaxed problem. Our heuristic is a combination of the greedy generation and optimal recombination applied to the reduced costs computed by the dual optimization. Our experimental validation considers two datasets based on real-life applications, where our method shows competitive results being able to find high quality approximate solutions within 10 seconds for graphs with hundreds of thousands of nodes and dozens of millions of edges.

Published
2024

6. Quantum Skyrmion Liquid

Author

Bhowmick, Dhiman, Haller, Andreas, Kathyat, Deepak S., Schmidt, Thomas L., and Sengupta, Pinaki

Subjects
Condensed Matter - Strongly Correlated Electrons
Abstract

Skyrmions are topological magnetic textures, mostly treated classically, studied extensively due to their potential spintronics applications due to their topological stability. However, it remains unclear what physical phenomena differentiate a classical from a quantum skyrmion. We present numerical evidence for the existence of a quantum skyrmion liquid (SkL) phase in quasi-one-dimensional lattices which has no classical counterpart. The transition from a conventional quantum skyrmion crystal (SkX) to a field-polarized phase (FP) is found to be of second order while the analogous classical transition near zero temperature is first-order due to a missing SkL phase. As an indicator of the quantum mechanical origin of the SkL phase, we find concentrated entanglement (indicated by the concurrence) around the skyrmion center, which we attribute to the uncertainty in the skyrmion position resulting from the non-commutativity of the skyrmion coordinate operators. The latter also gives rise to a nontrivial kinetic energy in the presence of an atomic lattice. The SkL phase emerges when the kinetic energy dominates over the skyrmion-skyrmion interaction energy. It is tied to the breaking of discrete translational invariance of the skyrmion crystal and occurs when the skyrmion radius is comparable with the size of the magnetic unit cell. In contrast to the long-range order present in the SkX phase, spin-spin correlations in the SkL phase exponentially decay with distance, indicating the fluid-like behavior of uncorrelated skyrmions. The emergence of kinetic energy-induced quantum SkL phase serves as a strong indication of the possible Bose-Einstein condensation of skyrmions in higher-dimensional systems. Our findings are effectively explained by microscopic theories like collective coordinate formalism and trial wave functions, effectively enhancing our understanding of the numerical findings., Comment: 15 pages, 13 figures

Published
2024

7. Data-Driven Linearization of Dynamical Systems

Author

Haller, George and Kaszás, Bálint

Subjects
Mathematics - Dynamical Systems, Nonlinear Sciences - Chaotic Dynamics
Abstract

Dynamic Mode Decomposition (DMD) and its variants, such as extended DMD (EDMD), are broadly used to fit simple linear models to dynamical systems known from observable data. As DMD methods work well in several situations but perform poorly in others, a clarification of the assumptions under which DMD is applicable is desirable. Upon closer inspection, existing interpretations of DMD methods based on the Koopman operator are not quite satisfactory: they justify DMD under assumptions that hold only with probability zero for generic observables. Here, we give a justification for DMD as a local, leading-order reduced model for the dominant system dynamics under conditions that hold with probability one for generic observables and non-degenerate observational data. We achieve this for autonomous and for periodically forced systems of finite or infinite dimensions by constructing linearizing transformations for their dominant dynamics within attracting slow spectral submanifolds (SSMs). Our arguments also lead to a new algorithm, data-driven linearization (DDL), which is a higher-order, systematic linearization of the observable dynamics within slow SSMs. We show by examples how DDL outperforms DMD and EDMD on numerical and experimental data., Comment: This revised version is going to appear in Nonlinear Dynamics

Published
2024

8. Failure Transparency in Stateful Dataflow Systems (Technical Report)

Author

Veresov, Aleksey, Spenger, Jonas, Carbone, Paris, and Haller, Philipp

Subjects
Computer Science - Programming Languages, Computer Science - Distributed, Parallel, and Cluster Computing
Abstract

Failure transparency enables users to reason about distributed systems at a higher level of abstraction, where complex failure-handling logic is hidden. This is especially true for stateful dataflow systems, which are the backbone of many cloud applications. In particular, this paper focuses on proving failure transparency in Apache Flink, a popular stateful dataflow system. Even though failure transparency is a critical aspect of Apache Flink, to date it has not been formally proven. Showing that the failure transparency mechanism is correct, however, is challenging due to the complexity of the mechanism itself. Nevertheless, this complexity can be effectively hidden behind a failure transparent programming interface. To show that Apache Flink is failure transparent, we model it in small-step operational semantics. Next, we provide a novel definition of failure transparency based on observational explainability, a concept which relates executions according to their observations. Finally, we provide a formal proof of failure transparency for the implementation model; i.e., we prove that the failure-free model correctly abstracts from the failure-related details of the implementation model. We also show liveness of the implementation model under a fair execution assumption. These results are a first step towards a verified stack for stateful dataflow systems., Comment: 26 pages, 12 figures, 44 pages including references and appendix with proofs, technical report, ECOOP 2024; updated with DOI

Published
2024

9. Nonlinear Model Reduction to Random Spectral Submanifolds in Random Vibrations

Author

Xu, Zhenwei, Kaundinya, Roshan S., Jain, Shobhit, and Haller, George

Subjects
Mathematics - Dynamical Systems, Mathematics - Numerical Analysis, Nonlinear Sciences - Pattern Formation and Solitons
Abstract

Dynamical systems in engineering and physics are often subject to irregular excitations that are best modeled as random. Monte Carlo simulations are routinely performed on such random models to obtain statistics on their long-term response. Such simulations, however, are prohibitively expensive and time consuming for high-dimensional nonlinear systems. Here we propose to decrease this numerical burden significantly by reducing the full system to very low-dimensional, attracting, random invariant manifolds in its phase space and performing the Monte Carlo simulations on that reduced dynamical system. The random spectral submanifolds (SSMs) we construct for this purpose generalize the concept of SSMs from deterministic systems under uniformly bounded random forcing. We illustrate the accuracy and speed of random SSM reduction by computing the SSM-reduced power spectral density of the randomly forced mechanical systems that range from simple oscillator chains to finite-element models of beams and plates., Comment: 26 pages, 15 figures

Published
2024

10. Modeling Nonlinear Dynamics from Videos

Author

Yang, Antony, Axås, Joar, Kádár, Fanni, Stépán, Gábor, and Haller, George

Subjects
Mathematics - Dynamical Systems
Abstract

We introduce a method for constructing reduced-order models directly from videos of dynamical systems. The method uses a non-intrusive tracking to isolate the motion of a user-selected part in the video of an autonomous dynamical system. In the space of delayed observations of this motion, we reconstruct a low-dimensional attracting spectral submanifold (SSM) whose internal dynamics serves as a mathematically justified reduced-order model for nearby motions of the full system. We obtain this model in a simple polynomial form that allows explicit identification of important physical system parameters, such as natural frequencies, linear and nonlinear damping and nonlinear stiffness. Beyond faithfully reproducing attracting steady states and limit cycles, our SSM-reduced models can also uncover hidden motion not seen in the video, such as unstable fixed points and unstable limit cycles forming basin boundaries. We demonstrate all these features on experimental videos of five physical systems: a double pendulum, an inverted flag in counter-flow, water sloshing in tank, a wing exhibiting aeroelastic flutter and a shimmying wheel.

Published
2024

11. Language models emulate certain cognitive profiles: An investigation of how predictability measures interact with individual differences

Author

Haller, Patrick, Bolliger, Lena S., and Jäger, Lena A.

Subjects
Computer Science - Computation and Language
Abstract

To date, most investigations on surprisal and entropy effects in reading have been conducted on the group level, disregarding individual differences. In this work, we revisit the predictive power of surprisal and entropy measures estimated from a range of language models (LMs) on data of human reading times as a measure of processing effort by incorporating information of language users' cognitive capacities. To do so, we assess the predictive power of surprisal and entropy estimated from generative LMs on reading data obtained from individuals who also completed a wide range of psychometric tests. Specifically, we investigate if modulating surprisal and entropy relative to cognitive scores increases prediction accuracy of reading times, and we examine whether LMs exhibit systematic biases in the prediction of reading times for cognitively high- or low-performing groups, revealing what type of psycholinguistic subject a given LM emulates. Our study finds that in most cases, incorporating cognitive capacities increases predictive power of surprisal and entropy on reading times, and that generally, high performance in the psychometric tests is associated with lower sensitivity to predictability effects. Finally, our results suggest that the analyzed LMs emulate readers with lower verbal intelligence, suggesting that for a given target group (i.e., individuals with high verbal intelligence), these LMs provide less accurate predictability estimates., Comment: ACL 2024 Findings

Published
2024

12. Quantum and classical magnetic Bloch points

Author

Kuchkin, Vladyslav M., Haller, Andreas, Liščák, Štefan, Adams, Michael P., Rai, Venus, Sinaga, Evelyn P., Michels, Andreas, and Schmidt, Thomas L.

Subjects
Condensed Matter - Strongly Correlated Electrons, Condensed Matter - Mesoscale and Nanoscale Physics
Abstract

A Bloch point represents a three-dimensional hedgehog singularity of a magnetic vector field in which the magnetization vanishes. However, standard micromagnetic theory, developed for magnetic moments of fixed lengths, lacks full applicability in studying such singularities. To address this gap, we study a Bloch point in a quantum Heisenberg model for the case of spin-1/2 particles. Performing an exact diagonalization of the Hamiltonian as well as using density matrix renormalization group techniques, we obtain the ground state, which can be used to recover the corresponding magnetization profile. Our findings demonstrate a variation of the spin length in the quantum model, leading smoothly to zero magnetization at the Bloch point. Our results indicate the necessity of generalizing the classical micromagnetic model by adding the third degree of freedom of the spins: the ability to change its length. To this end, we introduce the micromagnetic $\mathbb{S}_{3}$-model, which enables the description of magnets with and without Bloch point singularities., Comment: 14 pages, 8 figures

Published
2024

13. 'Forgetting' in Machine Learning and Beyond: A Survey

Author

Sha, Alyssa Shuang, Nunes, Bernardo Pereira, and Haller, Armin

Subjects
Computer Science - Machine Learning
Abstract

This survey investigates the multifaceted nature of forgetting in machine learning, drawing insights from neuroscientific research that posits forgetting as an adaptive function rather than a defect, enhancing the learning process and preventing overfitting. This survey focuses on the benefits of forgetting and its applications across various machine learning sub-fields that can help improve model performance and enhance data privacy. Moreover, the paper discusses current challenges, future directions, and ethical considerations regarding the integration of forgetting mechanisms into machine learning models.

Published
2024

14. Material Barriers to the Diffusive Magnetic Flux in Magnetohydrodynamics

Author

Encinas-Bartos, A., Kaszás, B., Servidio, S., and Haller, G.

Subjects
Physics - Plasma Physics, Physics - Fluid Dynamics
Abstract

Recent work has identified objective (frame-indifferent) material barriers that inhibit the transport of dynamically active vectorial quantities (such as linear momentum, angular momentum and vorticity) in Navier-Stokes flows. In magnetohydrodynamics (MHD), a similar setting arises: the magnetic field vector impacts the evolution of the velocity field through the Lorentz force and hence is a dynamically active vector field. Here, we extend the theory of active material barriers from Navier-Stokes flows to MHD flows in order to locate frame-indifferent barriers to the diffusive transport of the magnetic field in turbulent two-dimensional and three-dimensional MHD flows. From this approach we obtain an algorithm for the automated extraction of such barriers from MHD turbulence data., Comment: 27 pages, 10 figures

Published
2024

15. A dual pair for the group of volume preserving diffeomorphisms

Author

Haller, Stefan and Vizman, Cornelia

Subjects
Mathematics - Symplectic Geometry, Mathematics - Differential Geometry, 58D10 (primary) 37K65, 53C12, 53C30, 53D20, 58D05, 58D15
Abstract

We use cotangent bundles of spaces of smooth embeddings to construct symplectic dual pairs involving the group of volume preserving diffeomorphisms. Via symplectic reduction we obtain descriptions of coadjoint orbits of this group in terms of nonlinear Grassmannians of augmented submanifolds. For codimension one embeddings these submanifolds are further constrained to the leaves of isodrastic foliations with finite codimensions., Comment: 32 pages, one figure

Published
2024

16. On RadCom channel capacity for V2V applications

Author

Haller, Elena, Amador, Oscar, and Nilsson, Emil

Subjects
Computer Science - Information Theory
Abstract

The use of millimiter wave (mmWave) for communication and sensing purposes is one of the functions powered by Next Generation Vehicle-to-Anything (V2X) networks. The arrival of IEEE~802.11bd, which is able to operate in the 60 GHz band, opens the doors of Integrated Sensing and Communications (ISAC) to vehicular networks. Similarly, Radar-based Communications (RadCom) proposes the use of the radar spectrum for communication puproses. In this paper, we perform an analysis of the channel capacity for different configurations of RadCom, showing its potential to offload the V2X spectrum for bumper-to-bumper V2X applications. We finalize with a discussion on the potential for ISAC from both the 802.11bd and RadCom approaches., Comment: Accepted in EMC Europe 2024

Published
2024

17. PECC: Problem Extraction and Coding Challenges

Author

Haller, Patrick, Golde, Jonas, and Akbik, Alan

Subjects
Computer Science - Artificial Intelligence
Abstract

Recent advancements in large language models (LLMs) have showcased their exceptional abilities across various tasks, such as code generation, problem-solving and reasoning. Existing benchmarks evaluate tasks in isolation, yet the extent to which LLMs can understand prose-style tasks, identify the underlying problems, and then generate appropriate code solutions is still unexplored. Addressing this gap, we introduce PECC, a novel benchmark derived from Advent Of Code (AoC) challenges and Project Euler, including 2396 problems. Unlike conventional benchmarks, PECC requires LLMs to interpret narrative-embedded problems, extract requirements, and generate executable code. A key feature of our dataset is the complexity added by natural language prompting in chat-based evaluations, mirroring real-world instruction ambiguities. Results show varying model performance between narrative and neutral problems, with specific challenges in the Euler math-based subset with GPT-3.5-Turbo passing 50% of the AoC challenges and only 8% on the Euler problems. By probing the limits of LLMs' capabilities, our benchmark provides a framework to monitor and assess the subsequent progress of LLMs as a universal problem solver., Comment: This paper got accepted at LREC-COLING 2024 (long)

Published
2024

18. Event-scale Internal Tide Variability via X-band Marine Radar

Author

Simpson, Alexandra J., McSweeney, Jacqueline M., Lerczak, James A., and Haller, Merrick C.

Subjects
Physics - Atmospheric and Oceanic Physics
Abstract

A combined radar remote sensing and in situ data set is used to track packets of nonlinear internal waves as they propagate and shoal across the inner shelf (40m - 9m). The dataset consists of high space-time resolution (5m, 2min) radar image time series collected over a 10km radial footprint, with over a dozen synchronous and co-located moorings measuring temperature, salinity, and velocity throughout the water column. The internal bores and higher-frequency internal waves that make up the internal tide are tracked in the radar image time series and, therefore, provide continuous cross-shore speed and angle estimates as the waves propagate across the inner shelf. We compare radar-estimated speeds to those estimated from moorings and confirm a cross-shore shoaling profile that deviates from linear theory. We additionally use combined remote sensing and in situ data to perform a detailed analysis on four consecutive internal tides. These analyses reveal intra-packet speed variability, tide-tide influences, reflected internal waves, and an instance of internal wave polarity reversal observed in the radar and moorings.

Published
2024

19. In industrial embedded software, are some compilation errors easier to localize and fix than others?

Author

Fu, Han, Eldh, Sigrid, Wiklund, Kristian, Ermedahl, Andreas, Haller, Philipp, and Artho, Cyrille

Subjects
Computer Science - Software Engineering, D.2.5
Abstract

Industrial embedded systems often require specialized hardware. However, software engineers have access to such domain-specific hardware only at the continuous integration (CI) stage and have to use simulated hardware otherwise. This results in a higher proportion of compilation errors at the CI stage than in other types of systems, warranting a deeper study. To this end, we create a CI diagnostics solution called ``Shadow Job'' that analyzes our industrial CI system. We collected over 40000 builds from 4 projects from the product source code and categorized the compilation errors into 14 error types, showing that the five most common ones comprise 89 % of all compilation errors. Additionally, we analyze the resolution time, size, and distance for each error type, to see if different types of compilation errors are easier to localize or repair than others. Our results show that the resolution time, size, and distance are independent of each other. Our research also provides insights into the human effort required to fix the most common industrial compilation errors. We also identify the most promising directions for future research on fault localization., Comment: 12 pages, 10 figures, ICST 2024

Published
2024

20. Separating diameter two properties from their weak-star counterparts in spaces of Lipschitz functions

Author

Haller, Rainis, Kaasik, Jaan Kristjan, and Ostrak, Andre

Subjects
Mathematics - Functional Analysis, Primary 46B04, Secondary 46B20
Abstract

We address some open problems concerning Banach spaces of real-valued Lipschitz functions. Specifically, we prove that the diameter two properties differ from their weak-star counterparts in these spaces. In particular, we establish the existence of dual Banach spaces lacking the symmetric strong diameter two property but possessing its weak-star counterpart. We show that there exists an octahedral Lipschitz-free space whose bidual is not octahedral. Furthermore, we prove that the Banach space of real-valued Lipschitz functions from any infinite subset of $\ell_1$ possesses the symmetric strong diameter two property. These results are achieved by introducing new sufficient conditions, providing new examples and clarifying the status of known ones., Comment: 13 pages, 2 figures

Published
2024

21. Behavioural Types for Heterogeneous Systems (Position Paper)

Author

Fowler, Simon, Haller, Philipp, Kuhn, Roland, Lindley, Sam, Scalas, Alceste, and Vasconcelos, Vasco T.

Subjects
Computer Science - Programming Languages
Abstract

Behavioural types provide a promising way to achieve lightweight, language-integrated verification for communication-centric software. However, a large barrier to the adoption of behavioural types is that the current state of the art expects software to be written using the same tools and typing discipline throughout a system, and has little support for components over which a developer has no control. This position paper describes the outcomes of a working group discussion at Dagstuhl Seminar 24051 (Next-Generation Protocols for Heterogeneous Systems). We propose a methodology for integrating multiple behaviourally-typed components, written in different languages. Our proposed approach involves an extensible protocol description language, a session IR that can describe data transformations and boundary monitoring and which can be compiled into program-specific session proxies, and finally a session middleware to aid session establishment. We hope that this position paper will stimulate discussion on one of the most pressing challenges facing the widespread adoption of behavioural typing., Comment: In Proceedings PLACES 2024, arXiv:2404.03712

Published
2024
Full Text
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22. Nonlinear Model Reduction to Temporally Aperiodic Spectral Submanifolds

Author

Haller, George and Kaundinya, Roshan S.

Subjects
Mathematics - Dynamical Systems, Nonlinear Sciences - Chaotic Dynamics, Nonlinear Sciences - Pattern Formation and Solitons
Abstract

We extend the theory of spectral submanifolds (SSMs) to general non-autonomous dynamical systems that are either weakly forced or slowly varying. Examples of such systems arise in structural dynamics, fluid-structure interactions and control problems. The time-dependent SSMs we construct under these assumptions are normally hyperbolic and hence will persist for larger forcing and faster time dependence that are beyond the reach of our precise existence theory. For this reason, we also derive formal asymptotic expansions that, under explicitly verifiable nonresonance conditions, approximate SSMs and their aperiodic anchor trajectories accurately for stronger, faster or even temporally discontinuous forcing. Reducing the dynamical system to these persisting SSMs provides a mathematically justified model reduction technique for non-autonomous physical systems whose time dependance is moderate either in magnitude or speed. We illustrate the existence, persistence and computation of temporally aperiodic SSMs in mechanical examples under chaotic forcing., Comment: To appear in Chaos

Published
2024

23. Gradient and Hessian regularity in elliptic transmission problems near a point cusp

Author

Bothe, Dieter, Druet, Pierre-Etienne, and Haller, Robert

Subjects
Mathematics - Analysis of PDEs, 35A21, 35B45, 35B65, 35D35, 35J15, 35R05
Abstract

We consider elliptic transmission problems in several space dimensions near an interface which is $C^{1,1}$ diffeomorphic to an axisymmetric reference-interface with a singular point of cusp type. We establish the regularity of the gradient and of the Hessian in $L^p$ spaces up to the cusp point for local weak solutions. We obtain regularity thresholds which are different according to whether the cusp is inward or outward to the subdomain, and which depend explicitly on the opening of the interface at the cusp. Our results allow for source terms in the bulk and on the interface.

Published
2024

24. Quantum Magnetic Skyrmion Operator

Author

Haller, Andreas, Díaz, Sebastián A., Belzig, Wolfgang, and Schmidt, Thomas L.

Subjects
Condensed Matter - Strongly Correlated Electrons, Condensed Matter - Mesoscale and Nanoscale Physics, Condensed Matter - Materials Science
Abstract

We propose a variational wave function to represent quantum skyrmions as bosonic operators. The operator faithfully reproduces two fundamental features of quantum skyrmions: their classical magnetic order and a "quantum cloud" of local spin-flip excitations. Using exact numerical simulations of the ground states of a 2D chiral magnetic model, we find two regions in the single-skyrmion state diagram distinguished by their leading quantum corrections. We use matrix product state simulations of the adiabatic braiding of two skyrmions to verify that the operator representation of skyrmions is valid at large inter-skyrmion distances. Our work demonstrates that skyrmions can be approximately coarse-grained and represented by bosonic quasiparticles, which paves the way toward a field theory of many-skyrmion quantum phases and, unlike other approaches, incorporates the microscopic quantum fluctuations of individual skyrmions., Comment: 13 pages, 8 figures, replaced with a revised version

Published
2024

25. An Empirical Analysis on the Use and Reporting of National Security Letters

Author

Bellon, Alex, Haller, Miro, Labunets, Andrey, Liu, Enze, and Savage, Stefan

Subjects
Computer Science - Computers and Society
Abstract

National Security Letters (NSLs) are similar to administrative subpoenas and can be issued directly by elements of the executive branch without requiring prior approval from a court or grand jury. Importantly, NSLs authorize the imposition of nondisclosure orders (aka "gag orders") on the receiving party. Controversy about potential abuses of this authority has driven a range of legal and policy discussions. To address these concerns, both the public sector and the private sector have sought to document the usage of NSLs in aggregated form. However, each data source is limited in scope, time, and kind. In this paper, we consolidate the available data around NSLs and answer two questions: (1) what can the public effectively learn from the reported data and does this information suffice to assess the NSL usage? (2) how accessible is this data collection? We show that longitudinal trends in the usage of NSLs can be observed. For instance, we find a significant increase in NSL requests for non-US persons and that the policy reforms to decrease the mandated nondisclosure period appear to be effective. The observed trends suggest that the current transparency mechanisms are viable safeguards against the excessive use of NSLs. However, aggregating and normalizing the data requires manual reviewing, parsing, and validating. We even find inconsistencies within and across official data sources. Overall, the laborious data collection process hinders external and internal auditing efforts and demonstrates the need for a unified and more usable dataset for NSLs., Comment: Accepted as short presentation at CSLAW 2024 (not in proceeding): https://computersciencelaw.org/2024/accepted-papers/

Published
2024

26. PoTeC: A German Naturalistic Eye-tracking-while-reading Corpus

Author

Jakobi, Deborah N., Kern, Thomas, Reich, David R., Haller, Patrick, and Jäger, Lena A.

Subjects
Computer Science - Computation and Language
Abstract

The Potsdam Textbook Corpus (PoTeC) is a naturalistic eye-tracking-while-reading corpus containing data from 75 participants reading 12 scientific texts. PoTeC is the first naturalistic eye-tracking-while-reading corpus that contains eye-movements from domain-experts as well as novices in a within-participant manipulation: It is based on a 2x2x2 fully-crossed factorial design which includes the participants' level of study and the participants' discipline of study as between-subject factors and the text domain as a within-subject factor. The participants' reading comprehension was assessed by a series of text comprehension questions and their domain knowledge was tested by text-independent background questions for each of the texts. The materials are annotated for a variety of linguistic features at different levels. We envision PoTeC to be used for a wide range of studies including but not limited to analyses of expert and non-expert reading strategies. The corpus and all the accompanying data at all stages of the preprocessing pipeline and all code used to preprocess the data are made available via GitHub: https://github.com/DiLi-Lab/PoTeC.

Published
2024

27. Looking back at the TEDDY study: lessons and future directions

Author

Lernmark, Åke, Agardh, Daniel, Akolkar, Beena, Gesualdo, Patricia, Hagopian, William A., Haller, Michael J., Hyöty, Heikki, Johnson, Suzanne Bennett, Larsson, Helena Elding, Liu, Edwin, Lynch, Kristian F., McKinney, Eoin F., McIndoe, Richard, Melin, Jessica, Norris, Jill M., Rewers, Marian, Rich, Stephen S., Toppari, Jorma, Triplett, Eric, Vehik, Kendra, Virtanen, Suvi M., Ziegler, Anette-G., Schatz, Desmond A., and Krischer, Jeffrey

Published
2024
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40. Standardized reporting for Head CT Scans in patients suspected of traumatic brain injury (TBI): An international expert endeavor

Author

Wintermark, Max, Allen, Jason W., Anzai, Yoshimi, Das, Tilak, Flanders, Adam E., Galanaud, Damien, Gean, Alisa, Haller, Sven, Lv, Han, Hirvonen, Jussi, Jordan, John E., Lee, Roland, Lui, Yvonne W., Sundgren, Pia C., Mukherjee, Pratik, Moen, Kent Gøran, Muto, Mario, Ng, Karelys, Niogi, Sumit N., Rovira, Alex, de Bruxellas, Niloufar Libre, Smits, Marion, Tsiouris, A. John, Van Goethem, Johan, Vyvere, Thijs Vande, Whitlow, Chris, Wiesmann, Martin, Yamada, Kei, Zakharova, Natalia, and Parizel, Paul M.

Published
2024
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41. Consensus guidance for monitoring individuals with islet autoantibody-positive pre-stage 3 type 1 diabetes

Author

Phillip, Moshe, Achenbach, Peter, Addala, Ananta, Albanese-O’Neill, Anastasia, Battelino, Tadej, Bell, Kirstine J., Besser, Rachel E. J., Bonifacio, Ezio, Colhoun, Helen M., Couper, Jennifer J., Craig, Maria E., Danne, Thomas, de Beaufort, Carine, Dovc, Klemen, Driscoll, Kimberly A., Dutta, Sanjoy, Ebekozien, Osagie, Larsson, Helena Elding, Feiten, Daniel J., Frohnert, Brigitte I., Gabbay, Robert A., Gallagher, Mary P., Greenbaum, Carla J., Griffin, Kurt J., Hagopian, William, Haller, Michael J., Hendrieckx, Christel, Hendriks, Emile, Holt, Richard I. G., Hughes, Lucille, Ismail, Heba M., Jacobsen, Laura M., Johnson, Suzanne B., Kolb, Leslie E., Kordonouri, Olga, Lange, Karin, Lash, Robert W., Lernmark, Åke, Libman, Ingrid, Lundgren, Markus, Maahs, David M., Marcovecchio, M. Loredana, Mathieu, Chantal, Miller, Kellee M., O’Donnell, Holly K., Oron, Tal, Patil, Shivajirao P., Pop-Busui, Rodica, Rewers, Marian J., Rich, Stephen S., Schatz, Desmond A., Schulman-Rosenbaum, Rifka, Simmons, Kimber M., Sims, Emily K., Skyler, Jay S., Smith, Laura B., Speake, Cate, Steck, Andrea K., Thomas, Nicholas P. B., Tonyushkina, Ksenia N., Veijola, Riitta, Wentworth, John M., Wherrett, Diane K., Wood, Jamie R., Ziegler, Anette-Gabriele, and DiMeglio, Linda A.

Published
2024
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42. Digital Comprehensibility Assessment of Simplified Texts among Persons with Intellectual Disabilities

Author

Säuberli, Andreas, Holzknecht, Franz, Haller, Patrick, Deilen, Silvana, Schiffl, Laura, Hansen-Schirra, Silvia, and Ebling, Sarah

Subjects
Computer Science - Computation and Language, Computer Science - Human-Computer Interaction
Abstract

Text simplification refers to the process of increasing the comprehensibility of texts. Automatic text simplification models are most commonly evaluated by experts or crowdworkers instead of the primary target groups of simplified texts, such as persons with intellectual disabilities. We conducted an evaluation study of text comprehensibility including participants with and without intellectual disabilities reading unsimplified, automatically and manually simplified German texts on a tablet computer. We explored four different approaches to measuring comprehensibility: multiple-choice comprehension questions, perceived difficulty ratings, response time, and reading speed. The results revealed significant variations in these measurements, depending on the reader group and whether the text had undergone automatic or manual simplification. For the target group of persons with intellectual disabilities, comprehension questions emerged as the most reliable measure, while analyzing reading speed provided valuable insights into participants' reading behavior., Comment: Accepted for publication at the 2024 ACM Conference on Human Factors in Computing Systems (CHI'24)

Published
2024

43. Data-driven modeling of the regular and chaotic dynamics of an inverted flag from experiments

Author

Xu, Zhenwei, Kaszás, Bálint, Cenedese, Mattia, Berti, Giovanni, Coletti, Filippo, and Haller, George

Subjects
Physics - Fluid Dynamics
Abstract

We use video footage of a water tunnel experiment to construct a two-dimensional reduced-order model of the flapping dynamics of an inverted flag in uniform flow. The model is obtained as the reduced dynamics on an attracting spectral submanifold (SSM) that emanates from the two slowest modes of the unstable fixed point of the flag. Beyond an unstable fixed point and a limit cycle expected from observations, our SSM-reduced model also confirms the existence of two unstable fixed points for the flag, which were found by previous studies. Importantly, the model correctly reconstructs the dynamics from a small number of general trajectories and no further information on the system. In the chaotic flapping regime, we construct a 4D SSM-reduced model that captures the system's chaotic attractor.

Published
2024
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44. Ultrafast jet classification on FPGAs for the HL-LHC

Author

Odagiu, Patrick, Que, Zhiqiang, Duarte, Javier, Haller, Johannes, Kasieczka, Gregor, Lobanov, Artur, Loncar, Vladimir, Luk, Wayne, Ngadiuba, Jennifer, Pierini, Maurizio, Rincke, Philipp, Seksaria, Arpita, Summers, Sioni, Sznajder, Andre, Tapper, Alexander, and Aarrestad, Thea K.

Subjects
High Energy Physics - Experiment, Computer Science - Machine Learning, Physics - Instrumentation and Detectors
Abstract

Three machine learning models are used to perform jet origin classification. These models are optimized for deployment on a field-programmable gate array device. In this context, we demonstrate how latency and resource consumption scale with the input size and choice of algorithm. Moreover, the models proposed here are designed to work on the type of data and under the foreseen conditions at the CERN LHC during its high-luminosity phase. Through quantization-aware training and efficient synthetization for a specific field programmable gate array, we show that $O(100)$ ns inference of complex architectures such as Deep Sets and Interaction Networks is feasible at a relatively low computational resource cost., Comment: 13 pages, 3 figures, 3 tables. Mach. Learn.: Sci. Technol (2024)

Published
2024
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45. Stability of superfluids in tilted optical lattices with periodic driving

Author

Cruickshank, Robbie, Di Carli, Andrea, Mitchell, Matthew, La Rooij, Arthur, Kuhr, Stefan, Creffield, Charles E., and Haller, Elmar

Subjects
Condensed Matter - Quantum Gases, Quantum Physics
Abstract

Tilted lattice potentials with periodic driving play a crucial role in the study of artificial gauge fields and topological phases with ultracold quantum gases. However, driving-induced heating and the growth of phonon modes restrict their use for probing interacting many-body states. Here, we experimentally investigate phonon modes and interaction-driven instabilities of superfluids in the lowest band of a shaken optical lattice. We identify stable and unstable parameter regions and provide a general resonance condition. In contrast to the high-frequency approximation of a Floquet description, we use the superfluids' micromotion to analyze the growth of phonon modes from slow to fast driving frequencies. Our observations enable the prediction of stable parameter regimes for quantum-simulation experiments aimed at studying driven systems with strong interactions over extended time scales., Comment: 12 pages, 9 figures

Published
2024

46. Intron lariat spliceosomes convert lariats to true circles: implications for intron transposition.

Author

Ares, Manuel, Igel, Haller, Katzman, Sol, and Donohue, John

Subjects
circular RNA, intron transposition, reverse splicing, Spliceosomes, Introns, Saccharomyces cerevisiae, Humans, RNA Splicing, RNA, Circular, RNA
Abstract

Rare, full-length circular intron RNAs distinct from lariats have been reported in several species, but their biogenesis is not understood. We envisioned and tested a hypothesis for their formation using Saccharomyces cerevisiae, documenting full-length and novel processed circular RNAs from multiple introns. Evidence implicates a previously undescribed catalytic activity of the intron lariat spliceosome (ILS) in which the 3-OH of the lariat tail (with optional trimming and adenylation by the nuclear 3 processing machinery) attacks the branch, joining the intron 3 end to the 5 splice site in a 3-5 linked circle. Human U2 and U12 spliceosomes produce analogous full-length and processed circles. Postsplicing catalytic activity of the spliceosome may promote intron transposition during eukaryotic genome evolution.

Published
2024

47. Preclinical models of orthopaedic trauma: Orthopaedic Research Society (ORS) and Orthopaedic Trauma Association (OTA) symposium 2022.

Author

Haller, Justin, Wenke, Joseph, Schaer, Thomas, Schneider, Prism, Bahney, Chelsea, Wise, Patrick, Morshed, Saam, and Saiz, Augustine

Subjects
animal models, basic science, fracture, infection, preclinical, translational research, trauma
Abstract

Orthopaedic trauma remains a leading cause of patient morbidity, mortality, and global health care burden. Although significant advances have been made in the diagnosis, treatment, and rehabilitation of these injuries, complications such as malunion, nonunion, infection, disuse muscle atrophy and osteopenia, and incomplete return to baseline function still occur. The significant inherent clinical variability in fracture care such as differing patient demographics, injury patterns, and treatment protocols make standardized and replicable study, especially of cellular and molecular based mechanisms, nearly impossible. Hence, the scientists dedicated to improving therapy and treatments for patients with orthopaedic trauma rely on preclinical models. Preclinical models have proven to be invaluable in understanding the timing between implant insertion and bacterial inoculation on the bioburden of infection. Posttraumatic arthritis (PTOA) can take years to develop clinically, but with a porcine pilon fracture model, posttraumatic arthritis can be reliably induced, so different surgical and therapeutic strategies can be tested in prevention. Conversely, the racehorse presents a well-accepted model of naturally occurring PTOA. With preclinical polytrauma models focusing on chest injury, abdominal injury, multiple fractures, and/or head injury, one can study how various injury patterns affect fracture healing can be systemically studied. Finally, these preclinical models serve as a translational bridge to for clinical application in human patients. With selection of the right preclinical model, studies can build a platform to decrease the risk of emerging technologies and provide foundational support for therapeutic clinical trials. In summary, orthopaedic trauma preclinical models allow scientists to simplify a complex clinical challenge, to understand the basic pathways starting with lower vertebrate models. Then, R&D efforts progress to higher vertebrate models to build in more complexity for translation of findings to the clinical practice.

Published
2024

48. Model Reduction to Spectral Submanifolds in Non-Smooth Dynamical Systems

Author

Bettini, Leonardo, Cenedese, Mattia, and Haller, George

Subjects
Mathematics - Dynamical Systems
Abstract

We develop a model reduction technique for non-smooth dynamical systems using spectral submanifolds. Specifically, we construct low-dimensional, sparse, nonlinear and non-smooth models on unions of slow and attracting spectral submanifolds (SSMs) for each smooth subregion of the phase space and then properly match them. We apply this methodology to both equation-driven and data-driven problems, with and without external forcing., Comment: Submitted to International Journal of Non-Linear Mechanics

Published
2023

49. Coherent control of a few-channel hole type gatemon qubit

Author

Zheng, Han, Cheung, Luk Yi, Sangwan, Nikunj, Kononov, Artem, Haller, Roy, Ridderbos, Joost, Ciaccia, Carlo, Ungerer, Jann Hinnerk, Li, Ang, Bakkers, Erik P. A. M., Baumgartner, Andreas, and Schönenberger, Christian

Subjects
Condensed Matter - Mesoscale and Nanoscale Physics, Condensed Matter - Superconductivity, Quantum Physics
Abstract

Gatemon qubits are the electrically tunable cousins of superconducting transmon qubits. In this work, we demonstrate the full coherent control of a gatemon qubit based on hole carriers in a Ge/Si core/shell nanowire, with the longest coherence times in group IV material gatemons to date. The key to these results is a high-quality Josephson junction obtained in a straightforward and reproducible annealing technique. We demonstrate that the transport through the narrow junctions is dominated by only two quantum channels, with transparencies up to unity. This novel qubit platform holds great promise for quantum information applications, not only because it incorporates technologically relevant materials, but also because it provides new opportunities, like an ultrastrong spin-orbit coupling in the few-channel regime of Josephson junctions., Comment: 15 pages, 11 figures

Published
2023

50. Influencing Student Persistence of Low Performing, First-Term Students through Academic Enrichment

Author

John Haller and Darby O. Plummer

Abstract

Student retention in higher education is a primary indicator of institutional reputation, impacting factors such as national rankings, admissions selectivity, and alumni support (Lee, Sanford, and Lee 2014). Programs designed to support student success in the first year and beyond generally intersect with the institutional mission. Utilizing quantitative data, the University of Miami (UM) identified academically at-risk students and developed an intervention program to help them get back on track. UM positively affected retention rates for this population by eight percentage points over the past seven years. This study highlights the specific details of data analytics, program development, and both quantitative and qualitative outcomes for this student persistence initiative.

Published
2024

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