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25,140 results on '"Lyons, P"'

1. Distributed Attack-Resilient Platooning Against False Data Injection

Author

Lyons, Lorenzo, Boldrer, Manuel, and Ferranti, Laura

Subjects
Electrical Engineering and Systems Science - Systems and Control
Abstract

This paper presents a novel distributed vehicle platooning control and coordination strategy. We propose a distributed predecessor-follower CACC scheme that allows to choose an arbitrarily small inter-vehicle distance while guaranteeing no rear-end collisions occur, even in the presence of undetected cyber-attacks on the communication channels such as false data injection. The safety guarantees of the CACC policy are derived by combing a sensor-based ACC policy that explicitly accounts for actuator saturation, and a communication-based predictive term that has state-dependent limits on its control authority, thus containing the effects of an unreliable communication channel. An undetected attack may still however be able to degrade platooning performance. To mitigate it, we propose a tailored Kalman observer-based attack detection algorithm that initially triggers a switch from the CACC policy to the ACC policy. Subsequently, by relying on a high-level coordinator, our strategy allows to isolate a compromised vehicle from the platoon formation by reconfiguring the platoon topology itself. The coordinator can also handle merging and splitting requests. We compare our algorithm in simulation against a state of the art distributed MPC scheme and we extensively test our full method in practice on a real system, a team of scaled-down car-like robots. Furthermore, we share the code to run both the simulations and robotic experiments.

Published
2024

2. Qutrit Toric Code and Parafermions in Trapped Ions

Author

Iqbal, Mohsin, Lyons, Anasuya, Lo, Chiu Fan Bowen, Tantivasadakarn, Nathanan, Dreiling, Joan, Foltz, Cameron, Gatterman, Thomas M., Gresh, Dan, Hewitt, Nathan, Holliman, Craig A., Johansen, Jacob, Neyenhuis, Brian, Matsuoka, Yohei, Mills, Michael, Moses, Steven A., Siegfried, Peter, Vishwanath, Ashvin, Verresen, Ruben, and Dreyer, Henrik

Subjects
Quantum Physics, Condensed Matter - Strongly Correlated Electrons
Abstract

The development of programmable quantum devices can be measured by the complexity of manybody states that they are able to prepare. Among the most significant are topologically ordered states of matter, which enable robust quantum information storage and processing. While topological orders are more readily accessible with qudits, experimental realisations have thus far been limited to lattice models of qubits. Here, we prepare a ground state of the Z3 toric code state on 24 qutrits in a trapped ion quantum processor with fidelity per qutrit exceeding 96.5(3)%. We manipulate two types of defects which go beyond the conventional qubit toric code: a parafermion, and its bound state which is related to charge conjugation symmetry. We further demonstrate defect fusion and the transfer of entanglement between anyons and defects, which we use to control topological qutrits. Our work opens up the space of long-range entangled states with qudit degrees of freedom for use in quantum simulation and universal error-correcting codes., Comment: 8+20 pages, 15 figures

Published
2024

3. Protocols for Creating Anyons and Defects via Gauging

Author

Lyons, Anasuya, Lo, Chiu Fan Bowen, Tantivasadakarn, Nathanan, Vishwanath, Ashvin, and Verresen, Ruben

Subjects
Quantum Physics, Condensed Matter - Strongly Correlated Electrons
Abstract

Creating and manipulating anyons and symmetry defects in topological phases, especially those with a non-Abelian character, constitutes a primitive for topological quantum computation. We provide a physical protocol for implementing the ribbon operators of non-Abelian anyons and symmetry defects. We utilize dualities, in particular the Kramers-Wannier or gauging map, which have previously been used to construct topologically ordered ground states by relating them to simpler states. In this work, ribbon operators are implemented by applying a gauging procedure to a lower-dimensional region of such states. This protocol uses sequential unitary circuits or, in certain cases, constant-depth adaptive circuits. We showcase this for anyons and defects in the $\mathbb{Z}_3$ toric code and $S_3$ quantum double. The general applicability of our method is demonstrated by deriving unitary expressions for ribbon operators of various (twisted) quantum doubles., Comment: 7+18 pages, 3+8 figures

Published
2024

4. Our Solar System Neighborhood: Three Diverging Tales of Planetary Habitability and Windows to Earth's Past and Future

Author

Kane, Stephen R., Ernst, Richard, Gillmann, Cedric, Jones, Christopher, Lyons, Timothy, and Tino, Christopher

Subjects
Astrophysics - Earth and Planetary Astrophysics
Abstract

Understanding planetary habitability is one of the major challenges of the current scientific era, particularly given the discovery of a large and diverse terrestrial exoplanet population. Discerning the primary factors that contribute to planetary habitability may be extracted through a detailed examination of the terrestrial planets within the Solar System, most particularly Venus, Earth, and Mars, and the evolution of their interiors and atmospheres through time. Here, we provide a detailed description of the fundamental properties of these three planets, the effects of solar evolution, and the potential contributions of these various aspects toward driving their evolutionary pathways. We argue that evolution of Venus, Earth, and Mars provide essential templates from which a more comprehensive approach toward the study of planetary habitability may be derived., Comment: 45 pages, 3 figures, accepted for publication in "The Archean Earth" (ed.: M. Homan, P. Mason, R. Ernst, T. Lyons, C. Heubeck, D. Papineau, E. Stueeken, R. Mazumder, A. Webb, W. Altermann), Elsevier

Published
2024

5. Setting the stage: Building and maintaining a habitable world and the early conditions that could favor life's beginnings on Earth and beyond

Author

Jones, Christopher K, Leung, Michaela, Tu, Chenyi, Ebadirad, Saleheh, Marshall, Nate, Tan, Lin, and Lyons, Tim

Subjects
Astrophysics - Earth and Planetary Astrophysics, Physics - Atmospheric and Oceanic Physics, Physics - Geophysics
Abstract

The Hadean, once thought to be uninhabitable and tumultuous, has more recently been recontextualized as a clement time in which oceans, land, and life likely appeared on Earth. This non-exhaustive chapter follows multiple threads from planet formation to the origin of life. We place significant emphasis on the solar system context for the Earth, the timing and nature of crustal formation and the evolution of the surface and atmosphere. Several scenarios for prebiotic chemistry are also discussed including atmospheric photochemistry, wet-dry and freeze-thaw cycles, and hydrothermal vent systems. We attempt to draw connections between the large-scale, planetary processes and various origin of life pathways to illustrate possible overlaps and correlations. In detail, we conclude with and discuss the "impact of impacts" to show how asteroid and comet impacts during the Hadean may have affected many of these processes and scenarios, from generating land to altering the chemical composition and oxidation state of the early Earth's atmosphere and surface., Comment: 18 pages, 5 figures, accepted for publication in "The Archean Earth" (ed.: M. Homan, P. Mason, R. Ernst, T. Lyons, C. Heubeck, D. Papineau, E. Stueeken, R. Mazumder, A. Webb, W. Altermann), Elsevier

Published
2024

6. Indication Finding: a novel use case for representation learning

Author

Eckhoff, Maren, Selimi, Valmir, Aranovitch, Alexander, Lyons, Ian, Briggs, Emily, Hou, Jennifer, Devereson, Alex, Macak, Matej, Champagne, David, and Anagnostopoulos, Chris

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

Many therapies are effective in treating multiple diseases. We present an approach that leverages methods developed in natural language processing and real-world data to prioritize potential, new indications for a mechanism of action (MoA). We specifically use representation learning to generate embeddings of indications and prioritize them based on their proximity to the indications with the strongest available evidence for the MoA. We demonstrate the successful deployment of our approach for anti-IL-17A using embeddings generated with SPPMI and present an evaluation framework to determine the quality of indication finding results and the derived embeddings.

Published
2024

7. Combining Hough Transform and Deep Learning Approaches to Reconstruct ECG Signals From Printouts

Author

Krones, Felix, Walker, Ben, Lyons, Terry, and Mahdi, Adam

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

This work presents our team's (SignalSavants) winning contribution to the 2024 George B. Moody PhysioNet Challenge. The Challenge had two goals: reconstruct ECG signals from printouts and classify them for cardiac diseases. Our focus was the first task. Despite many ECGs being digitally recorded today, paper ECGs remain common throughout the world. Digitising them could help build more diverse datasets and enable automated analyses. However, the presence of varying recording standards and poor image quality requires a data-centric approach for developing robust models that can generalise effectively. Our approach combines the creation of a diverse training set, Hough transform to rotate images, a U-Net based segmentation model to identify individual signals, and mask vectorisation to reconstruct the signals. We assessed the performance of our models using the 10-fold stratified cross-validation (CV) split of 21,799 recordings proposed by the PTB-XL dataset. On the digitisation task, our model achieved an average CV signal-to-noise ratio of 17.02 and an official Challenge score of 12.15 on the hidden set, securing first place in the competition. Our study shows the challenges of building robust, generalisable, digitisation approaches. Such models require large amounts of resources (data, time, and computational power) but have great potential in diversifying the data available.

Published
2024

8. Deep Signature: Characterization of Large-Scale Molecular Dynamics

Author

Qin, Tiexin, Zhu, Mengxu, Li, Chunyang, Lyons, Terry, Yan, Hong, and Li, Haoliang

Subjects
Quantitative Biology - Quantitative Methods, Computer Science - Artificial Intelligence
Abstract

Understanding protein dynamics are essential for deciphering protein functional mechanisms and developing molecular therapies. However, the complex high-dimensional dynamics and interatomic interactions of biological processes pose significant challenge for existing computational techniques. In this paper, we approach this problem for the first time by introducing Deep Signature, a novel computationally tractable framework that characterizes complex dynamics and interatomic interactions based on their evolving trajectories. Specifically, our approach incorporates soft spectral clustering that locally aggregates cooperative dynamics to reduce the size of the system, as well as signature transform that collects iterated integrals to provide a global characterization of the non-smooth interactive dynamics. Theoretical analysis demonstrates that Deep Signature exhibits several desirable properties, including invariance to translation, near invariance to rotation, equivariance to permutation of atomic coordinates, and invariance under time reparameterization. Furthermore, experimental results on three benchmarks of biological processes verify that our approach can achieve superior performance compared to baseline methods., Comment: 17 page, 8 figures

Published
2024

9. Self-Reachable Configuration Polytopes for Trees

Author

Lyons, Benjamin and Olsen, McCabe

Subjects
Mathematics - Combinatorics, 52B20, 05C57, 05C05
Abstract

We study lattice polytopes which arise as the convex hull of chip vectors for \textit{self-reachable} chip configurations on a tree $T$. We show that these polytopes always have the integer decomposition property and characterize the vertex sets of these polytopes. Additionally, in the case of self-reachable configurations with the smallest possible number of chips, we show that these polytopes are unimodularly equivalent to a unit cube.

Published
2024

10. Optimizing Control Strategies for Wheeled Mobile Robots Using Fuzzy Type I and II Controllers and Parallel Distributed Compensation

Author

Paykari, Nasim, Jokar, Razieh, Alfatemi, Ali, Lyons, Damian, and Rahouti, Mohamed

Subjects
Computer Science - Robotics
Abstract

Adjusting the control actions of a wheeled robot to eliminate oscillations and ensure smoother motion is critical in applications requiring accurate and soft movements. Fuzzy controllers enable a robot to operate smoothly while accounting for uncertainties in the system. This work uses fuzzy theories and parallel distributed compensation to establish a robust controller for wheeled mobile robots. The use of fuzzy logic type I and type II controllers are covered in the study, and their performance is compared with a PID controller. Experimental results demonstrate that fuzzy logic type II outperforms type I and the classic controller. Further, we deploy parallel distributed compensation, sector of nonlinearity, and local approximation strategy in our design. These strategies help analyze the stability of each rule of the fuzzy controller separately and map the if-then rules of the fuzzy box into parallel distributed compensation using Linear Matrix Inequalities (LMI) analysis. Also, they help manage the uncertainty flow in the equations that exist in the kinematic model of a robot. Last, we propose a Bezier curve to represent the different pathways for the wheeled mobile robot., Comment: 16 pages, 17 figures

Published
2024

11. FUSE (Fusion Synthesis Engine): A Next Generation Framework for Integrated Design of Fusion Pilot Plants

Author

Meneghini, O., Slendebroek, T., Lyons, B. C., McLaughlin, K., McClenaghan, J., Stagner, L., Harvey, J., Neiser, T. F., Ghiozzi, A., Dose, G., Guterl, J., Zalzali, A., Cote, T., Shi, N., Weisberg, D., Smith, S. P., Grierson, B. A., and Candy, J.

Subjects
Physics - Plasma Physics
Abstract

The Fusion Synthesis Engine (FUSE) is a state-of-the-art software suite designed to revolutionize fusion power plant design. FUSE integrates first-principle models, machine learning, and reduced models into a unified framework, enabling comprehensive simulations that go beyond traditional 0D systems studies. FUSE's modular structure supports a hierarchy of model fidelities, from steady-state to time-dependent simulations, allowing for both pre-conceptual design and operational scenario development. This framework accelerates the design process by enabling self-consistent solutions across physics, engineering, and control systems, minimizing the need for iterative expert evaluations. Leveraging modern software practices and parallel computing, FUSE also provides multi-objective optimization, balancing cost, efficiency, and operational constraints. Developed in Julia, FUSE is fully open-source under the Apache 2.0 license, promoting transparency and collaboration within the fusion research community.

Published
2024

12. Self-Reachable Chip Configurations on Trees

Author

Lyons, Benjamin and Olsen, McCabe

Subjects
Mathematics - Combinatorics, 05C57, 05C05
Abstract

In this paper, we explore the notion of a \emph{self-reachable} chip configuration on a simple graph, that is a chip configuration which can be re-obtained from itself after a (nonempty) sequence of vertex firings. In particular, we focus on the case of trees and provide a characterization for such configurations, as well as show that all self-reachable configurations with the same number of chips on a tree are reachable from one another. We conclude with a recursive enumeration formula for the number of self-reachable configurations.

Published
2024

13. Elevated C-Reactive Protein in Older Men With Chronic Pain: Association With Plasma Amyloid Levels and Hippocampal Volume

Author

Bell, Tyler R, Franz, Carol E, Thomas, Kelsey R, Williams, McKenna E, Eyler, Lisa T, Lerman, Imanuel, Fennema-Notestine, Christine, Puckett, Olivia K, Dorros, Stephen M, Panizzon, Matthew S, Pearce, Rahul C, Hagler, Donald J, Lyons, Michael J, Elman, Jeremy A, and Kremen, William S

Subjects
Biomedical and Clinical Sciences, Clinical Sciences, Aging, Chronic Pain, Neurosciences, Brain Disorders, Neurodegenerative, Alzheimer's Disease including Alzheimer's Disease Related Dementias (AD/ADRD), Alzheimer's Disease, Pain Research, Dementia, Acquired Cognitive Impairment, 2.1 Biological and endogenous factors, Neurological, Humans, Male, Hippocampus, C-Reactive Protein, Aged, Amyloid beta-Peptides, Biomarkers, Middle Aged, Magnetic Resonance Imaging, tau Proteins, Alzheimer Disease, Neurofilament Proteins, Organ Size, Peptide Fragments, Inflammation, Amyloid-beta, Chronic pain, Plasma biomarkers, Gerontology, Biomedical and clinical sciences, Health sciences
Abstract

BackgroundChronic pain leads to tau accumulation and hippocampal atrophy, which may be moderated through inflammation. In older men, we examined associations of chronic pain with Alzheimer's disease (AD)-related plasma biomarkers and hippocampal volume as moderated by systemic inflammation.MethodsParticipants were men without dementia. Chronic pain was defined as moderate-to-severe pain in 2+ study waves at average ages 56, 62, and 68. At age 68, we measured plasma amyloid-beta (Aβ42, n = 871), Aβ40 (n = 887), total tau (t-tau, n = 841), and neurofilament light chain (NfL, n = 915), and serum high-sensitivity C-reactive protein (hs-CRP, n = 968), a marker of systemic inflammation. A subgroup underwent structural MRI to measure hippocampal volume (n = 385). Analyses adjusted for medical morbidities, depressive symptoms, and opioid use.ResultsChronic pain was related to higher Aβ40 (β = 0.25, p = .009), but hs-CRP was unrelated to AD-related biomarkers (ps > .05). There was a significant interaction such that older men with both chronic pain and higher levels of hs-CRP had higher levels of Aβ42 (β = 0.36, p = .001) and Aβ40 (β = 0.29, p = .003). Chronic pain and hs-CRP did not interact to predict levels of Aβ42/Aβ40, t-tau, or NfL. Furthermore, there were significant interactions such that Aβ42 and Aβ40 were associated with lower hippocampal volume, particularly when levels of hs-CRP were elevated (hs-CRP × Aβ42: β = -0.19, p = .002; hs-CRP × Aβ40: β = -0.21, p = .001), regardless of chronic pain status.ConclusionsChronic pain was associated with higher plasma Aβ, especially when hs-CRP was also elevated. Higher hs-CRP and Aβ levels were both related to smaller hippocampal volumes. Chronic pain, when accompanied by systemic inflammation, may elevate the risk of neurodegeneration in AD-vulnerable regions.

Published
2024

14. Validation of the imperial psychedelic predictor scale.

Author

Angyus, Michael, Osborn, Sarah, Haijen, Eline, Erritzoe, David, Peill, Joseph, Lyons, Taylor, Kettner, Hannes, and Carhart-Harris, Robin

Subjects
pharmaceuticals, predicting psychedelic response, psychedelic preparation, psychedelics, psychometrics, safety, set and setting
Abstract

BACKGROUND: Access to psychedelic drugs is liberalizing, yet responses are highly unpredictable. It is therefore imperative that we improve our ability to predict the nature of the acute psychedelic experience to improve safety and optimize potential therapeutic outcomes. This study sought to validate the Imperial Psychedelic Predictor Scale (IPPS), a short, widely applicable, prospective measure intended to be predictive of salient dimensions of the psychedelic experience. METHODS: Using four independent datasets in which the IPPS was completed prospectively - two online surveys of naturalistic use (N = 741, N = 836) and two controlled administration datasets (N = 30, N = 28) - we conducted factor analysis, regression, and correlation analyses to assess the construct, predictive, and convergent validity of the IPPS. RESULTS: Our approach produced a 9-item scale with good internal consistency (Cronbachs α = 0.8) containing three factors: set, rapport, and intention. The IPPS was significantly predictive of mystical, challenging, and emotional breakthrough experiences. In a controlled administration dataset (N = 28), multiple regression found set and rapport explaining 40% of variance in mystical experience, and simple regression found set explained 16% of variance in challenging experience. In another (N = 30), rapport was related to emotional breakthrough explaining 9% of variance. CONCLUSIONS: Together, these data suggest that the IPPS is predictive of relevant acute features of the psychedelic experience in a broad range of contexts. We hope that this brief 9-item scale will be widely adopted for improved knowledge of psychedelic preparedness in controlled settings and beyond.

Published
2024

15. Emergency Department Food Insecurity Screening, Food Voucher Distribution and Utilization: A Prospective Cohort Study

Author

Ulintz, Alexander J., Patel, Seema S., Anderson, Katherine, Walters, Kevin, Stepsis, Tyler J., Lyons, Michael S., and Pang, Peter S.

Subjects
emergency department, Food Insecurity, Social Risks, social determinants of health, social emergency medicine
Abstract

Objective: Food insecurity is a prevalent social risk among emergency department (ED) patients. Patients who may benefit from food insecurity resources may be identified via ED-based screening; however, many patients experience difficulty accessing resources after discharge. Co-locating resources in or near the ED may improve utilization by patients, but this approach remains largely unstudied. This study characterized the acceptance and use of a food voucher redeemable at a hospital food market for patients who screened positive for food insecurity during their ED visit.Methods: This prospective cohort study, conducted at a single county-funded ED, included consecutive adult patients who presented on weekdays between 8 AM–8 PM from July–October 2022 and consented to research participation. We excluded patients who required resuscitation on arrival or could not provide written informed consent in English. Study participants completed a paper version of the two-question Hunger Vital Sign screening tool, administered by research staff. Participants who screened positive received a uniquely numbered $30 food voucher redeemable at the hospital’s co-located food market. Voucher redemption was quantified through regular evaluation of market receipt records at 30-day intervals. The primary outcome was the proportion of redeemed vouchers. Secondary outcomes included the proportion of participants screening positive for food insecurity, proportion of participants accepting vouchers, and associated descriptive statistics.Results: Of the 396 eligible individuals approached, 377 (95.2%) consented and completed food insecurity screening. Most were middle-aged (median 53 years, interquartile range 30–58 years), 191 were female (50.4%), 242 were Black (63.9%), and 343 were non-Hispanic (91.0%). Of the participants, 228 (60.2%) screened positive for food insecurity and 224 received vouchers (98.2%), of which 86 were redeemed (38.4%) a median of nine days after the ED visit.Conclusion: A high proportion of participants screened positive for food insecurity and accepted food vouchers; however, less than half of all vouchers were redeemed at the co-located food market. These results imply ED food voucher distribution for food insecurity is feasible, but co-location of resources alone may be insufficient in addressing the social risk and alludes to a limited understanding of facilitators and barriers to resource utilization following ED-based social needs screening.

Published
2024

16. The adult shell matrix protein repertoire of the marine snail Crepidula is dominated by conserved genes that are also expressed in larvae.

Author

Lopez-Anido, Rebecca, Batzel, Grant, Ramirez, Gabriela, Wang, Yiqun, Neal, Stephanie, Lesoway, Maryna, Goodheart, Jessica, and Lyons, Deirdre

Subjects
Biomineralization, Crepidula, Shell development, Shell matrix proteins, Animals, Animal Shells, Larva, Snails, Phylogeny
Abstract

Mollusca is a morphologically diverse phylum, exhibiting an immense variety of calcium carbonate structures. Proteomic studies of adult shells often report high levels of rapidly-evolving, novel shell matrix proteins (SMPs), which are hypothesized to drive shell diversification. However, relatively little is known about the phylogenetic distribution of SMPs, or about the function of individual SMPs in shell construction. To understand how SMPs contribute to shell diversification a thorough characterization of SMPs is required. Here, we build tools and a foundational understanding of SMPs in the marine gastropod species Crepidula fornicata and Crepidula atrasolea because they are genetically-enabled mollusc model organisms. First, we established a staging system of shell development in C. atrasolea for the first time. Next, we leveraged previous findings in C. fornicata combined with phylogenomic analyses of 95 metazoan species to determine the evolutionary lineage of its adult SMP repertoire. We found that 55% of C. fornicatas SMPs belong to molluscan orthogroups, with 27% restricted to Gastropoda, and only 5% restricted at the species level. The low percentage of species-restricted SMPs underscores the importance of broad-taxon sampling and orthology inference approaches when determining homology of SMPs. From our transcriptome analysis, we found that the majority of C. fornicata SMPs that were found conserved in C. atrasolea were expressed in both larval and adult stages. We then selected a subset of SMPs of varying evolutionary ages for spatial-temporal analysis using in situ hybridization chain reaction (HCR) during larval shell development in C. atrasolea. Out of the 18 SMPs analyzed, 12 were detected in the larval shell field. These results suggest overlapping larval vs. adult SMP repertoires. Using multiplexed HCR, we observed five SMP expression patterns and three distinct cell populations within the shell field. These patterns support the idea that modular expression of SMPs could facilitate divergence of shell morphological characteristics. Collectively, these data establish an evolutionary and developmental framework in Crepidula that enables future comparisons of molluscan biomineralization to reveal mechanisms of shell diversification.

Published
2024

17. Self-assembled clusters of magnetically tilted dipoles

Author

de Lima, P. D. S., Lyons, A., Irannezhad, A., de Araújo, J. M., Hutzler, S., and Ferreira, M. S.

Subjects
Condensed Matter - Soft Condensed Matter, Condensed Matter - Statistical Mechanics
Abstract

Motivated by the idea of using simple macroscopic examples to illustrate the physics of complex systems, we modify a historic experimental setup in which interacting floating magnets spontaneously self-assemble into ordered clusters. By making the cluster components mechanically stable against their natural tendency to flip and coalesce, we can monitor the torque experienced by individual magnets through the macroscopic tilt angles they acquire when exposed to non-collinear external fields. A mathematical model that reproduces the empirical observations is introduced, enabling us to go beyond the experimental cases considered. The model confirms the existence of alternative orderings as the number of objects increases. Furthermore, a simpler and more mathematically transparent version of our model enables us to establish the conditions under which the cluster structure is stable and when it will collapse. We argue that our simple experimental setup combined with the accompanying models may be useful to describe general features seen in systems composed of mutually repulsive particles in the presence of modulating confining fields., Comment: 14 pages, 8 figures, submitted to PRE

Published
2024

18. Inverse Iteration for the Laplace Eigenvalue Problem with Robin and Mixed Boundary Conditions

Author

Lyons, Benjamin, Ruttenberg, Ephraim, and Zitzelberger, Nicholas

Subjects
Mathematics - Analysis of PDEs, 35J25, 35A35, 47A75, 49R05, 65N25
Abstract

We apply the method of inverse iteration to the Laplace eigenvalue problem with Robin and mixed Dirichlet-Neumann boundary conditions, respectively. For each problem, we prove convergence of the iterates to a non-trivial principal eigenfunction and show that the corresponding Rayleigh quotients converge to the principal eigenvalue. We also propose a related iterative method for an eigenvalue problem arising from a model for optimal insulation and provide some partial results.

Published
2024

19. From Stem to Stern: Contestability Along AI Value Chains

Author

Balayn, Agathe, Pi, Yulu, Widder, David Gray, Alfrink, Kars, Yurrita, Mireia, Upadhyay, Sohini, Karusala, Naveena, Lyons, Henrietta, Turkay, Cagatay, Tessono, Christelle, Attard-Frost, Blair, and Gadiraju, Ujwal

Subjects
Computer Science - Artificial Intelligence, Computer Science - Computers and Society, Computer Science - Human-Computer Interaction
Abstract

This workshop will grow and consolidate a community of interdisciplinary CSCW researchers focusing on the topic of contestable AI. As an outcome of the workshop, we will synthesize the most pressing opportunities and challenges for contestability along AI value chains in the form of a research roadmap. This roadmap will help shape and inspire imminent work in this field. Considering the length and depth of AI value chains, it will especially spur discussions around the contestability of AI systems along various sites of such chains. The workshop will serve as a platform for dialogue and demonstrations of concrete, successful, and unsuccessful examples of AI systems that (could or should) have been contested, to identify requirements, obstacles, and opportunities for designing and deploying contestable AI in various contexts. This will be held primarily as an in-person workshop, with some hybrid accommodation. The day will consist of individual presentations and group activities to stimulate ideation and inspire broad reflections on the field of contestable AI. Our aim is to facilitate interdisciplinary dialogue by bringing together researchers, practitioners, and stakeholders to foster the design and deployment of contestable AI., Comment: 5 pages, 0 figure, to be held as a workshop at CSCW'24

Published
2024

20. An agent-based model of behaviour change calibrated to reversal learning data

Author

Reyes, Roben Delos, Keenan, Hugo Lyons, and Zachreson, Cameron

Subjects
Quantitative Biology - Quantitative Methods, Physics - Biological Physics, Statistics - Computation
Abstract

Behaviour change lies at the heart of many observable collective phenomena such as the transmission and control of infectious diseases, adoption of public health policies, and migration of animals to new habitats. Representing the process of individual behaviour change in computer simulations of these phenomena remains an open challenge. Often, computational models use phenomenological implementations with limited support from behavioural data. Without a strong connection to observable quantities, such models have limited utility for simulating observed and counterfactual scenarios of emergent phenomena because they cannot be validated or calibrated. Here, we present a simple stochastic individual-based model of reversal learning that captures fundamental properties of individual behaviour change, namely, the capacity to learn based on accumulated reward signals, and the transient persistence of learned behaviour after rewards are removed or altered. The model has only two parameters, and we use approximate Bayesian computation to demonstrate that they are fully identifiable from empirical reversal learning time series data. Finally, we demonstrate how the model can be extended to account for the increased complexity of behavioural dynamics over longer time scales involving fluctuating stimuli. This work is a step towards the development and evaluation of fully identifiable individual-level behaviour change models that can function as validated submodels for complex simulations of collective behaviour change., Comment: 23 pages, 5 figures

Published
2024

21. Linear Inverse Problems Using a Generative Compound Gaussian Prior

Author

Lyons, Carter, Raj, Raghu G., and Cheney, Margaret

Subjects
Electrical Engineering and Systems Science - Signal Processing
Abstract

Since most inverse problems arising in scientific and engineering applications are ill-posed, prior information about the solution space is incorporated, typically through regularization, to establish a well-posed problem with a unique solution. Often, this prior information is an assumed statistical distribution of the desired inverse problem solution. Recently, due to the unprecedented success of generative adversarial networks (GANs), the generative network from a GAN has been implemented as the prior information in imaging inverse problems. In this paper, we devise a novel iterative algorithm to solve inverse problems in imaging where a dual-structured prior is imposed by combining a GAN prior with the compound Gaussian (CG) class of distributions. A rigorous computational theory for the convergence of the proposed iterative algorithm, which is based upon the alternating direction method of multipliers, is established. Furthermore, elaborate empirical results for the proposed iterative algorithm are presented. By jointly exploiting the powerful CG and GAN classes of image priors, we find, in compressive sensing and tomographic imaging problems, our proposed algorithm outperforms and provides improved generalizability over competitive prior art approaches while avoiding performance saturation issues in previous GAN prior-based methods., Comment: Submitted to IEEE TSP for publication. 13 pages, 2 figures

Published
2024

22. Higher Order Lipschitz Greedy Recombination Interpolation Method (HOLGRIM)

Author

Lyons, Terry and McLeod, Andrew D.

Subjects
Mathematics - Numerical Analysis, 97N40, 97N50, 26B35, 65D05, 41A05, 41A25
Abstract

In this paper we introduce the Higher Order Lipschitz Greedy Recombination Interpolation Method (HOLGRIM) for finding sparse approximations of Lip$(\gamma)$ functions, in the sense of Stein, given as a linear combination of a (large) number of simpler Lip$(\gamma)$ functions. HOLGRIM is developed as a refinement of the Greedy Recombination Interpolation Method (GRIM) in the setting of Lip$(\gamma)$ functions. HOLGRIM combines dynamic growth-based interpolation techniques with thinning-based reduction techniques in a data-driven fashion. The dynamic growth is driven by a greedy selection algorithm in which multiple new points may be selected at each step. The thinning reduction is carried out by recombination, the linear algebra technique utilised by GRIM. We establish that the number of non-zero weights for the approximation returned by HOLGRIM is controlled by a particular packing number of the data. The level of data concentration required to guarantee that HOLGRIM returns a good sparse approximation is decreasing with respect to the regularity parameter $\gamma > 0$. Further, we establish complexity cost estimates verifying that implementing HOLGRIM is feasible.

Published
2024

23. Teaching Phonics in Context--Stories of Teachers' Practice and Students' Outcomes

Author

Janet Scull and Damien Lyons

Abstract

This article presents the outcomes of a study conducted in Victoria, Australia, that recognised teachers' knowledge and understanding of phonics teaching, and early literacy acquisition processes more generally. In total, 45 teachers and 220 students from the 18 focus schools who engaged in the reform initiative agreed to participate in this study. The questions posed considered understandings associated with the professional learning programme and processes that support the implementation of the phonics teaching and the impact this had on students' literacy learning. We share the data used to map teachers' stories of change and practice and some of the key factors, including structures, practices and attitudes, that influenced the implementation. The impact on students' reading and writing outcomes throughout the reform process are also reported. Combined, the findings indicate that the teaching of phonic knowledge, integrated into rich contexts for learning, contributed to improvements in teaching and students' early literacy skills. Furthermore, this study fills an important and common missing gap in professional learning as it explores implementation processes and practice in the classroom. The results inform continuing reform efforts and targeted research necessary to refine phonics teaching practice and further advance students' literacy outcomes.

Published
2024
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24. Applying the Extension for Community Healthcare Outcomes (ECHO) Model to Promote Collaborative and Effective School Mental Health Services

Author

Michael D. Lyons, Faith Zabek, Tameka O. Grimes, Sarah K. Downey, Julia V. Taylor, and Kathryn L. Zeanah

Abstract

School staff increasingly seek to implement evidence-based school mental health services to promote student mental health. However, barriers to accessing programming and support mean that implementing these programs is difficult. Popular strategies to address these challenges, like one time professional development, often fail to be effective or sustainable. This study used mixed methods to evaluate how a set of training activities--sequential online learning modules combined with interprofessional telementoring, following the extension for community healthcare outcomes (ECHO) model--influenced provision of school mental health services. School counselors, nurses, psychologists, and social workers (n = 46) participated in training activities, which included nine, cohort-based ECHO sessions and 12 modules. We used a concurrent mixed methods design in which quantitative (implementation data and pre-post surveys) and qualitative (posttraining focus groups with a subset of participants, n = 11) data were used to evaluate training. Quantitative results indicated statistically significant pre-post improvements in participants' clinical self-efficacy (d = 0.83) and knowledge of evidence-based practices (d = 0.37). Qualitative data corroborated quantitative results. Post training, focus groups described positive reactions, learning, and behavior change, particularly with respect to equitable service provision and interprofessional teaming. ECHO appeared to facilitate the application of evidence-based strategies to real-life practice and improved participants' understanding of effective coordination of services. Taken together, findings suggest that group-based telementoring may be a high-impact strategy for supporting the implementation of effective, culturally specific, and collaborative school mental health services.

Published
2024
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25. Expanding Student Access to Field Experiences: Virtual Ethnographic Field Schools

Author

Barry J. Lyons

Abstract

New and newly widespread communications technologies make it possible for students to enjoy many of the benefits of an ethnographic field school with less commitment of money and time, thereby expanding access to a valuable cross-cultural research experience. This article reflects on the challenges, successes, limitations, and lessons learned from Wayne State University's Virtual Ethnographic Field School in Highland Ecuador, considers an alternative model, and sketches various field school pedagogical and design options.

Published
2024
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26. Enterprise Education: An Example of a Trapped Curriculum

Author

Adrian Lyons

Abstract

The purpose of the school curriculum could be to prepare pupils for a satisfying and fulfilling life, to prepare pupils for the needs of the economy or to pass on the wisdom of society accumulated over time. In this article I use the example of enterprise education, including financial capability, to show how the current English schools' curriculum succeeds in none of these for too many young people. I draw on the wisdom of the 1980s to inform the present and the future.

Published
2024

27. Parkinsons disease variant detection and disclosure: PD GENEration, a North American study.

Author

Cook, Lola, Verbrugge, Jennifer, Schwantes-An, Tae-Hwi, Schulze, Jeanine, Foroud, Tatiana, Hall, Anne, Marder, Karen, Mata, Ignacio, Mencacci, Niccolò, Nance, Martha, Schwarzschild, Michael, Simuni, Tanya, Bressman, Susan, Wills, Anne-Marie, Fernandez, Hubert, Litvan, Irene, Lyons, Kelly, Shill, Holly, Singer, Carlos, Tropea, Thomas, Vanegas Arroyave, Nora, Carbonell, Janfreisy, Cruz Vicioso, Rossy, Katus, Linn, Quinn, Joseph, Hodges, Priscila, Meng, Yan, Strom, Samuel, Blauwendraat, Cornelis, Lohmann, Katja, Casaceli, Cynthia, Rao, Shilpa, Ghosh Galvelis, Kamalini, Naito, Anna, Beck, James, and Alcalay, Roy

Subjects
GBA1, LRRK2, Parkinson’s disease, clinical trials, genetic counselling, genetic testing, Humans, Parkinson Disease, Genetic Testing, Male, Female, Glucosylceramidase, Leucine-Rich Repeat Serine-Threonine Protein Kinase-2, alpha-Synuclein, Aged, Middle Aged, Ubiquitin-Protein Ligases, Protein Kinases, Protein Deglycase DJ-1, Vesicular Transport Proteins, North America, Genetic Variation, Genetic Predisposition to Disease, Adult, Disclosure, Genetic Counseling, Canada, United States
Abstract

Variants in seven genes (LRRK2, GBA1, PRKN, SNCA, PINK1, PARK7 and VPS35) have been formally adjudicated as causal contributors to Parkinsons disease; however, individuals with Parkinsons disease are often unaware of their genetic status since clinical testing is infrequently offered. As a result, genetic information is not incorporated into clinical care, and variant-targeted precision medicine trials struggle to enrol people with Parkinsons disease. Understanding the yield of genetic testing using an established gene panel in a large, geographically diverse North American population would help patients, clinicians, clinical researchers, laboratories and insurers better understand the importance of genetics in approaching Parkinsons disease. PD GENEration is an ongoing multi-centre, observational study (NCT04057794, NCT04994015) offering genetic testing with results disclosure and genetic counselling to those in the US (including Puerto Rico), Canada and the Dominican Republic, through local clinical sites or remotely through self-enrolment. DNA samples are analysed by next-generation sequencing including deletion/duplication analysis (Fulgent Genetics) with targeted testing of seven major Parkinsons disease-related genes. Variants classified as pathogenic/likely pathogenic/risk variants are disclosed to all tested participants by either neurologists or genetic counsellors. Demographic and clinical features are collected at baseline visits. Between September 2019 and June 2023, the study enrolled 10 510 participants across >85 centres, with 8301 having received results. Participants were: 59% male; 86% White, 2% Asian, 4% Black/African American, 9% Hispanic/Latino; mean age 67.4 ± 10.8 years. Reportable genetic variants were observed in 13% of all participants, including 18% of participants with one or more high risk factors for a genetic aetiology: early onset (

Published
2024

28. Validating the Physician Documentation Quality Instrument for Intensive Care Unit-Ward Transfer Notes.

Author

Lyons, Patrick, Rojas, Juan, Bewley, Alice, Malone, Sara, and Santhosh, Lekshmi

Subjects
ICU-ward transfers, clinical informatics, electronic health records, handoffs, quality and safety
Abstract

BACKGROUND: Physician communication failures during transfers of patients from the intensive care unit (ICU) to the general ward are common and can lead to adverse events. Efforts to improve written handoffs during these transfers are increasingly prominent, but no instruments have been developed to assess the quality of physician ICU-ward transfer notes. OBJECTIVE: To collect validity evidence for the modified nine-item Physician Documentation Quality Instrument (mPDQI-9) for assessing ICU-ward transfer note usefulness across several hospitals. METHODS: Twenty-four physician raters independently used the mPDQI-9 to grade 12 notes collected from three academic hospitals. A priori, we excluded the up-to-date and accurate domains, because these could not be assessed without giving the rater access to the complete patient chart. Assessments therefore used the domains thorough, useful, organized, comprehensible, succinct, synthesized, and consistent. Raters scored each domain on a Likert scale ranging from 1 (low) to 5 (high). The total mPDQI-9 was the sum of these domain scores. The primary outcome was the raters perceived clinical utility of the notes, and the primary measures of interest were criterion validity (Spearmans ρ) and interrater reliability (intraclass correlation [ICC]). RESULTS: Mean mPDQI-9 scores by note ranged from 19 (SD = 5.5) to 30 (SD = 4.2). Mean note ratings did not systematically differ by rater expertise (for interaction, P = 0.15). The proportion of raters perceiving each note as independently sufficient for patient care (the primary outcome) ranged from 33% to 100% across the set of notes. We found a moderately positive correlation between mPDQI-9 ratings and raters overall assessments of each notes clinical utility (ρ = 0.48, P

Published
2024

29. Seven Practical Recommendations for Designing and Conducting Qualitative Research in Medical Education.

Author

Lyons, Patrick, Gause, Sherie, Eakin, Michelle, OBrien, Bridget, and Santhosh, Lekshmi

Subjects
methods, qualitative, research design
Abstract

Qualitative research seeks to provide context, nuance, and depth of understanding in regard to systems, behaviors, and/or lived experiences. As such, it plays a key role in many areas of medical education. Composed of myriad methods and methodologies, each of which may be valuable for some areas of inquiry but less so for others, qualitative research can be challenging to design, conduct, and report. This challenge can be conceptualized as ensuring that the study design, conduct, and reporting are fit for purpose, following directly from a well-formulated research question. In this Perspective, we share seven important and practical recommendations to enhance the design and conduct of high-quality qualitative research in medical education: 1) craft a strong research question, 2) link the study design to this question, 3) assemble a team with diverse expertise, 4) prioritize information power when selecting recruitment and sampling strategies, 5) collect data carefully, 6) rigorously analyze data, and 7) disseminate results that tell a complete story.

Published
2024

30. Artificial Intelligence Index Report 2024

Author

Maslej, Nestor, Fattorini, Loredana, Perrault, Raymond, Parli, Vanessa, Reuel, Anka, Brynjolfsson, Erik, Etchemendy, John, Ligett, Katrina, Lyons, Terah, Manyika, James, Niebles, Juan Carlos, Shoham, Yoav, Wald, Russell, and Clark, Jack

Subjects
Computer Science - Artificial Intelligence
Abstract

The 2024 Index is our most comprehensive to date and arrives at an important moment when AI's influence on society has never been more pronounced. This year, we have broadened our scope to more extensively cover essential trends such as technical advancements in AI, public perceptions of the technology, and the geopolitical dynamics surrounding its development. Featuring more original data than ever before, this edition introduces new estimates on AI training costs, detailed analyses of the responsible AI landscape, and an entirely new chapter dedicated to AI's impact on science and medicine. The AI Index report tracks, collates, distills, and visualizes data related to artificial intelligence (AI). Our mission is to provide unbiased, rigorously vetted, broadly sourced data in order for policymakers, researchers, executives, journalists, and the general public to develop a more thorough and nuanced understanding of the complex field of AI. The AI Index is recognized globally as one of the most credible and authoritative sources for data and insights on artificial intelligence. Previous editions have been cited in major newspapers, including the The New York Times, Bloomberg, and The Guardian, have amassed hundreds of academic citations, and been referenced by high-level policymakers in the United States, the United Kingdom, and the European Union, among other places. This year's edition surpasses all previous ones in size, scale, and scope, reflecting the growing significance that AI is coming to hold in all of our lives.

Published
2024

31. Value Alignment and Trust in Human-Robot Interaction: Insights from Simulation and User Study

Author

Bhat, Shreyas, Lyons, Joseph B., Shi, Cong, and Yang, X. Jessie

Subjects
Computer Science - Robotics
Abstract

With the advent of AI technologies, humans and robots are increasingly teaming up to perform collaborative tasks. To enable smooth and effective collaboration, the topic of value alignment (operationalized herein as the degree of dynamic goal alignment within a task) between the robot and the human is gaining increasing research attention. Prior literature on value alignment makes an inherent assumption that aligning the values of the robot with that of the human benefits the team. This assumption, however, has not been empirically verified. Moreover, prior literature does not account for human's trust in the robot when analyzing human-robot value alignment. Thus, a research gap needs to be bridged by answering two questions: How does alignment of values affect trust? Is it always beneficial to align the robot's values with that of the human? We present a simulation study and a human-subject study to answer these questions. Results from the simulation study show that alignment of values is important for trust when the overall risk level of the task is high. We also present an adaptive strategy for the robot that uses Inverse Reinforcement Learning (IRL) to match the values of the robot with those of the human during interaction. Our simulations suggest that such an adaptive strategy is able to maintain trust across the full spectrum of human values. We also present results from an empirical study that validate these findings from simulation. Results indicate that real-time personalized value alignment is beneficial to trust and perceived performance by the human when the robot does not have a good prior on the human's values., Comment: This is a preprint of the following chapter: Bhat et al., Value Alignment and Trust in Human-Robot Interaction: Insights from Simulation and User Study, published in "Emerging Frontiers in Human-Robot Interaction", edited by Ramana Kumar Vinjamuri, 2024, Springer Nature reproduced with permission of Springer Nature. The final authenticated version is available online at: [INSERT LINK HERE]

Published
2024

32. Pattern formation in three-state systems: Towards understanding morphology formation in the presence of evaporation

Author

Cirillo, Emilio N. M., Lyons, Rainey, Muntean, Adrian, and Muntean, Stela Andrea

Subjects
Condensed Matter - Statistical Mechanics, Mathematical Physics
Abstract

Inspired by experimental evidence collected when processing thin films from ternary solutions made of two solutes, typically polymers, and one solvent, we computationally study the morphology formation of domains obtained in three-state systems using both a lattice model and a continuum counterpart. The lattice-based approach relies on the Blume-Capel nearest neighbor model with bulk conservative Kawasaki dynamics, whereas as continuum system we consider a coupled system of evolution equations that is derived as hydrodynamic limit when replacing the nearest neighbor interaction in the lattice case by a suitable Kac potential. We explore how the obtained morphology depends on the solvent content in the mixture. In particular, we study how these scenarios change when the solvent is allowed to evaporate.

Published
2024

33. Direct evidence for carbon incorporation on the nitrogen site in AlN

Author

Wickramaratne, Darshana, Siford, Mackenzie, Mollik, Md Shafiqul Islam, Lyons, John L., and Zvanut, M. E.

Subjects
Condensed Matter - Materials Science
Abstract

We use photo-electron paramagnetic resonance (EPR) measurements and first-principles calculations to identify and explain the properties of carbon in AlN. We present clear evidence for carbon substitution on the nitrogen site (C$_{\rm N}$). We also clarify the origin of a widely observed EPR spectra in AlN that, although often attributed to a deep donor defect, we demonstrate is surprisingly due to C$_{\rm N}$. Finally, we show the presence of C$_{\rm N}$ is consistent with the absorption spectra at 4.7 eV observed in AlN., Comment: 5 pages, 3 figures

Published
2024

34. Skew bracoids containing a skew brace

Author

Colazzo, Ilaria, Koch, Alan, Martin-Lyons, Isabel, and Truman, Paul J.

Subjects
Mathematics - Rings and Algebras, Mathematics - Group Theory, Primary 16T25, Secondary 20N99
Abstract

Skew bracoids have been shown to have applications in Hopf-Galois theory. We show that a certain family of skew bracoids correspond bijectively with left cancellative semibraces. A consequence of this correspondence is that skew bracoids in this family can be used to obtain and study solutions of the set-theoretic Yang--Baxter equation; we study this process and the resulting solutions. We give numerous examples of skew bracoids satisfying our hypothesis, drawing upon a variety of constructions in the literature., Comment: 13 pages; title and sequencing of results changed

Published
2024

35. Ligand Equilibrium Influences Photoluminescence Blinking in CsPbBr3: A Change Point Analysis of Widefield Imaging Data

Author

Gallagher, Shaun, Kline, Jessica, Jahanbakhshi, Farzaneh, Sadighian, James C., Lyons, Ian, Shen, Gillian, Rappe, Andrew M., and Ginger, David S.

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

Photoluminescence intermittency remains one of the biggest challenges to realizing perovskite quantum dots (QDs) as scalable single photon emitters. We compare CsPbBr3 QDs capped with different ligands, lecithin, and a combination of oleic acid and oleylamine, to elucidate the role of surface chemistry on photoluminescence intermittency. We employ widefield photoluminescence microscopy, sampling the blinking behavior of hundreds of QDs. Using change point analysis, we achieve the robust classification of blinking trajectories, and we analyze representative distributions from large numbers of QDs (Nlecithin = 1308, Noleic acid/oleylamine =1317). We find that lecithin suppresses blinking in CsPbBr3 QDs compared to oleic acid/oleylamine. Under common experimental conditions, lecithin-capped QDs are 7.5 times more likely to be non-blinking and spend 2.5 times longer in their most emissive state, despite both QDs having nearly identical solution photoluminescence quantum yields. We measure photoluminescence as a function of dilution and show that the differences between lecithin and oleic acid/oleylamine capping emerge at low concentrations during preparation for single particle experiments. From experiment and first principles calculations, we attribute the differences in lecithin and oleic acid/oleylamine performance to differences in their ligand binding equilibria. Consistent with our experimental data, density functional theory calculations suggest a stronger binding affinity of lecithin to the QD surface compared to oleic acid/oleylamine, implying a reduced likelihood of ligand desorption during dilution. These results suggest that using more tightly binding ligands is a necessity for surface passivation and consequently, blinking reduction in perovskite QDs used for single particle and quantum light experiments., Comment: 38 pages, 5 figures

Published
2024

36. Higher Order Lipschitz Sandwich Theorems

Author

Lyons, Terry and McLeod, Andrew D.

Subjects
Mathematics - Classical Analysis and ODEs, Mathematics - Differential Geometry, Mathematics - Numerical Analysis, 26B35, 26D07, 46A32, 46B28, 46M05
Abstract

We investigate the consequence of two Lip$(\gamma)$ functions, in the sense of Stein, being close throughout a subset of their domain. A particular consequence of our results is the following. Given $K_0 > \varepsilon > 0$ and $\gamma > \eta > 0$ there is a constant $\delta = \delta(\gamma,\eta,\varepsilon,K_0) > 0$ for which the following is true. Let $\Sigma \subset \mathbb{R}^d$ be closed and $f , h : \Sigma \to \mathbb{R}$ be Lip$(\gamma)$ functions whose Lip$(\gamma)$ norms are both bounded above by $K_0$. Suppose $B \subset \Sigma$ is closed and that $f$ and $h$ coincide throughout $B$. Then over the set of points in $\Sigma$ whose distance to $B$ is at most $\delta$ we have that the Lip$(\eta)$ norm of the difference $f-h$ is bounded above by $\varepsilon$. More generally, we establish that this phenomenon remains valid in a less restrictive Banach space setting under the weaker hypothesis that the two Lip$(\gamma)$ functions $f$ and $h$ are only close in a pointwise sense throughout the closed subset $B$. We require only that the subset $\Sigma$ be closed; in particular, the case that $\Sigma$ is finite is covered by our results. The restriction that $\eta < \gamma$ is sharp in the sense that our result is false for $\eta := \gamma$., Comment: Minor refinement of main result statements. arXiv admin note: substantial text overlap with arXiv:2205.07495

Published
2024

37. A Bound Preserving Energy Stable Scheme for a Nonlocal Cahn-Hilliard Equation

Author

Lyons, Rainey, Nika, Grigor, and Muntean, Adrian

Subjects
Mathematics - Numerical Analysis, 65M08, 35R09, 35Q70
Abstract

We present a finite-volume based numerical scheme for a nonlocal Cahn-Hilliard equation which combines ideas from recent numerical schemes for gradient flow equations and nonlocal Cahn-Hilliard equations. The equation of interest is a special case of a previously derived and studied system of equations which describes phase separation in ternary mixtures. We prove the scheme is both energy stable and respects the analytical bounds of the solution. Furthermore, we present numerical demonstrations of the theoretical results using both the Flory-Huggins (FH) and Ginzburg-Landau (GL) free-energy potentials.

Published
2024

38. A High Order Solver for Signature Kernels

Author

Lemercier, Maud and Lyons, Terry

Subjects
Computer Science - Machine Learning, Mathematics - Analysis of PDEs, 60L10, 60L20
Abstract

Signature kernels are at the core of several machine learning algorithms for analysing multivariate time series. The kernel of two bounded variation paths (such as piecewise linear interpolations of time series data) is typically computed by solving a Goursat problem for a hyperbolic partial differential equation (PDE) in two independent time variables. However, this approach becomes considerably less practical for highly oscillatory input paths, as they have to be resolved at a fine enough scale to accurately recover their signature kernel, resulting in significant time and memory complexities. To mitigate this issue, we first show that the signature kernel of a broader class of paths, known as \emph{smooth rough paths}, also satisfies a PDE, albeit in the form of a system of coupled equations. We then use this result to introduce new algorithms for the numerical approximation of signature kernels. As bounded variation paths (and more generally geometric $p$-rough paths) can be approximated by piecewise smooth rough paths, one can replace the PDE with rapidly varying coefficients in the original Goursat problem by an explicit system of coupled equations with piecewise constant coefficients derived from the first few iterated integrals of the original input paths. While this approach requires solving more equations, they do not require looking back at the complex and fine structure of the initial paths, which significantly reduces the computational complexity associated with the analysis of highly oscillatory time series.

Published
2024

39. Multi-Scale Experimental Characterization for LS-DYNA MAT213 Modeling of Composite Structures under High Strain Rate

Author

Black, Jackob, Premo, Ryan, Goldberg, Robert K., Ricks, Trenton M., Lyons, Troy, and Kim, Han-Gyu

Subjects
Physics - Applied Physics
Abstract

Aerospace structures often experience high strain rate events such as ballistic impact, crash, or crush. A material model has been developed that enhances the capability to simulate the dynamic response of composite materials under these loading conditions. The material model has been implemented into the commercially available transient dynamic finite element code LS-DYNA as MAT213. The model can simulate the nonlinear deformation, damage, and failure that takes place in a composite under dynamic loading conditions. The specific goal of this work is to characterize the MAT213 input for the representative material. The specific composite material being examined consists of T700G unidirectional carbon fibers and a low-melt PolyArylEtherKetone (LMPAEK) thermoplastic resin system. It is formally referred to as Toray TC1225 LMPAEK T700G. As the initial part of this work, this paper is focused on characterizing the material parameters for the MAT213 deformation model based on results obtained from multi-scale experimentation. The effort concentrated on characterizing the in-plane material response suitable for use with thin shell elements. For shell elements within MAT213, tabulated stress-strain results from tension and compression tests in the longitudinal and transverse directions and in-plane shear tests are required. Due to the difficulty of measuring small strains in the transverse direction, a multi-scale testing method was developed. Macro-scale testing is performed per the typical ASTM methods while micro-scale testing uses a microscope along with smaller coupon sizes to obtain the smaller strains in the transverse direction of each test. For both testing methods, a VIC-2D camera and software for digital image correlation analysis are used. Using the DIC combined with each test fixture, reliable stress and strain data are collected.

Published
2024

40. Multimodal deep learning approach to predicting neurological recovery from coma after cardiac arrest

Author

Krones, Felix H., Walker, Ben, Parsons, Guy, Lyons, Terry, and Mahdi, Adam

Subjects
Computer Science - Machine Learning, Electrical Engineering and Systems Science - Signal Processing
Abstract

This work showcases our team's (The BEEGees) contributions to the 2023 George B. Moody PhysioNet Challenge. The aim was to predict neurological recovery from coma following cardiac arrest using clinical data and time-series such as multi-channel EEG and ECG signals. Our modelling approach is multimodal, based on two-dimensional spectrogram representations derived from numerous EEG channels, alongside the integration of clinical data and features extracted directly from EEG recordings. Our submitted model achieved a Challenge score of $0.53$ on the hidden test set for predictions made $72$ hours after return of spontaneous circulation. Our study shows the efficacy and limitations of employing transfer learning in medical classification. With regard to prospective implementation, our analysis reveals that the performance of the model is strongly linked to the selection of a decision threshold and exhibits strong variability across data splits., Comment: 5 figures, 2 tables

Published
2024

41. Understanding Stabilizer Codes Under Local Decoherence Through a General Statistical Mechanics Mapping

Author

Lyons, Anasuya

Subjects
Quantum Physics, Condensed Matter - Statistical Mechanics, Condensed Matter - Strongly Correlated Electrons
Abstract

We consider the problem of a generic stabilizer Hamiltonian under local, incoherent Pauli errors. Using two different approaches -- (i) Haah's polynomial formalism arXiv:1204.1063 and (ii) the homological perspective on CSS codes -- we construct a mapping from the $n$th moment of the decohered ground state density matrix to a classical statistical mechanics model. We demonstrate that various measures of information capacity -- (i) quantum relative entropy, (ii) coherent information, and (iii) entanglement negativity -- map to thermodynamic quantities in the statistical mechanics model and can be used to characterize the decoding phase transition. As examples, we analyze the 3D toric code and X-cube model, deriving bounds on their optimal decoding thresholds and gaining insight into their information properties under decoherence. Additionally, we demonstrate that the SM mapping acts an an "ungauging" map; the classical models that describe a given code under decoherence also can be gauged to obtain the same code. Finally, we comment on correlated errors and non-CSS stabilizer codes., Comment: 27 pages, 10 figures

Published
2024

42. Preserving correlations: A statistical method for generating synthetic data

Author

Jävergård, Nicklas, Lyons, Rainey, Muntean, Adrian, and Forsman, Jonas

Subjects
Computer Science - Machine Learning, Mathematics - Probability, Physics - Data Analysis, Statistics and Probability
Abstract

We propose a method to generate statistically representative synthetic data. The main goal is to be able to maintain in the synthetic dataset the correlations of the features present in the original one, while offering a comfortable privacy level that can be eventually tailored on specific customer demands. We describe in detail our algorithm used both for the analysis of the original dataset and for the generation of the synthetic data points. The approach is tested using a large energy-related dataset. We obtain good results both qualitatively (e.g. via vizualizing correlation maps) and quantitatively (in terms of suitable $\ell^1$-type error norms used as evaluation metrics). The proposed methodology is general in the sense that it does not rely on the used test dataset. We expect it to be applicable in a much broader context than indicated here.

Published
2024

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