Your search keyword '"Laa, Ursula"' showing total 17 results

1. New and Simplified Manual Controls for Projection and Slice Tours, With Application to Exploring Classification Boundaries in High Dimensions.

Author

Laa, Ursula, Aumann, Alex, Cook, Dianne, and Valencia, German

Subjects

*LINEAR algebra, *TOURS, *CLASSIFICATION

Abstract

This article describes new user controls for examining high-dimensional data using low-dimensional linear projections and slices. A user can interactively change the contribution of a given variable to a low-dimensional projection, which is useful for exploring the sensitivity of structure to particular variables. The user can also interactively shift the center of a slice, for example, to explore how structure changes in local subspaces. The Mathematica package as well as example notebooks are provided, which contain functions enabling the user to experiment with these new manual controls, with one specifically for exploring regions and boundaries produced by classification models. The advantage of Mathematica is its linear algebra capabilities and interactive cursor location controls. Some limited implementation has also been made available in the R package tourr. for this article are available online. [ABSTRACT FROM AUTHOR]

Published

2023

2. Hole or Grain? A Section Pursuit Index for Finding Hidden Structure in Multiple Dimensions.

Author

Laa, Ursula, Cook, Dianne, Buja, Andreas, and Valencia, German

Subjects

*FISHER discriminant analysis, *PRINCIPAL components analysis, *DATA distribution, *FUNCTION spaces, *WAREHOUSES

Abstract

Multivariate data is often visualized using linear projections, produced by techniques such as principal component analysis, linear discriminant analysis, and projection pursuit. A problem with projections is that they obscure low and high density regions near the center of the distribution. Sections, or slices, can help to reveal them. This article develops a section pursuit method, building on the extensive work in projection pursuit, to search for interesting slices of the data. Linear projections are used to define sections of the parameter space, and to calculate interestingness by comparing the distribution of observations, inside and outside a section. By optimizing this index, it is possible to reveal features such as holes (low density) or grains (high density). The optimization is incorporated into a guided tour so that the search for structure can be dynamic. The approach can be useful for problems when data distributions depart from uniform or normal, as in visually exploring nonlinear manifolds, and functions in multivariate space. Two applications of section pursuit are shown: exploring decision boundaries from classification models, and exploring subspaces induced by complex inequality conditions from a multiple parameter model. The new methods are available in R, in the tourr package. for this article are available online. [ABSTRACT FROM AUTHOR]

Published

2022

3. Burning Sage: Reversing the Curse of Dimensionality in the Visualization of High-Dimensional Data.

Author

Laa, Ursula, Cook, Dianne, and Lee, Stuart

Subjects

*DATA visualization, *WAREHOUSES, *TRAVELING salesman problem, *SAGE, *DATA analysis

Abstract

In high-dimensional data analysis, the curse of dimensionality reasons that points tend to be far away from the center of the distribution and on the edge of high-dimensional space. Contrary to this, is that projected data tends to clump at the center. This gives a sense that any structure near the center of the projection is obscured, whether this is true or not. A geometric transformation to reverse the curse, is defined in this article, which uses radial transformations on the projected data. It is integrated seamlessly into the grand tour algorithm, and we have called it a burning sage tour, to indicate that it reverses the curse. The work is implemented into the tourr package in R. Several case studies are included that show how the sage visualizations enhance exploratory clustering and classification problems. Supplementary files for this article are available online. [ABSTRACT FROM AUTHOR]

Published

2022

4. Using tours to visually investigate properties of new projection pursuit indexes with application to problems in physics.

Author

Laa, Ursula and Cook, Dianne

Subjects

*GRAVITATIONAL wave astronomy, *GRAVITATIONAL waves, *PHYSICS, *TOURS

Abstract

Projection pursuit is used to find interesting low-dimensional projections of high-dimensional data by optimizing an index over all possible projections. Most indexes have been developed to detect departure from known distributions, such as normality, or to find separations between known groups. Here, we are interested in finding projections revealing potentially complex bivariate patterns, using new indexes constructed from scagnostics and a maximum information coefficient, with a purpose to detect unusual relationships between model parameters describing physics phenomena. The performance of these indexes is examined with respect to ideal behaviour, using simulated data, and then applied to problems from gravitational wave astronomy. The implementation builds upon the projection pursuit tools available in the R package, tourr, with indexes constructed from code in the R packages, binostics, minerva and mbgraphic. [ABSTRACT FROM AUTHOR]

Published

2020

5. A Slice Tour for Finding Hollowness in High-Dimensional Data.

Author

Laa, Ursula, Cook, Dianne, and Valencia, German

Subjects

*ORTHOGRAPHIC projection, *DATA modeling, *TOURS, *DATA

Abstract

Taking projections of high-dimensional data is a common analytical and visualization technique in statistics for working with high-dimensional problems. Sectioning, or slicing, through high dimensions is less common, but can be useful for visualizing data with concavities, or nonlinear structure. It is associated with conditional distributions in statistics, and also linked brushing between plots in interactive data visualization. This short technical note describes a simple approach for slicing in the orthogonal space of projections obtained when running a tour, thus presenting the viewer with an interpolated sequence of sliced projections. The method has been implemented in R as an extension to the tourr package, and can be used to explore for concave and nonlinear structures in multivariate distributions. for this article are available online. [ABSTRACT FROM AUTHOR]

Published

2020

6. A Tidy Framework and Infrastructure to Systematically Assemble Spatio-temporal Indexes from Multivariate Data.

Author

Zhang, H. Sherry, Cook, Dianne, Laa, Ursula, Langrené, Nicolas, and Menéndez, Patricia

Subjects

*GENDER inequality, *CONFIDENCE intervals, *VALUES (Ethics), *PIPELINE inspection

Abstract

AbstractIndexes are useful for summarizing multivariate information into single metrics for monitoring, communicating, and decision-making. While most work has focused on defining new indexes for specific purposes, more attention needs to be directed toward making it possible to understand index behavior in different data conditions, and to determine how their structure affects their values and the variability therein. Here we discuss a modular data pipeline recommendation to assemble indexes. It is universally applicable to index computation and allows investigation of index behavior as part of the development procedure. One can compute indexes with different parameter choices, adjust steps in the index definition by adding, removing, and swapping them to experiment with various index designs, calculate uncertainty measures, and assess indexes’ robustness. The article presents three examples to illustrate the usage of the pipeline framework: comparison of two different indexes designed to monitor the spatio-temporal distribution of drought in Queensland, Australia; the effect of dimension reduction choices on the Global Gender Gap Index (GGGI) on countries’ ranking; and how to calculate bootstrap confidence intervals for the Standardized Precipitation Index (SPI). The methods are supported by a new R package, called tidyindex. Supplemental materials for the article are available online. [ABSTRACT FROM AUTHOR]

Published

2024

7. Connecting R with D3 for dynamic graphics, to explore multivariate data with tours.

Author

Kipp, Michael, Laa, Ursula, and Cook, Dianne

Subjects

*MESSAGE passing (Computer science), *TOURS

Abstract

The tourr package in R has several algorithms and displays for showing multivariate data as a sequence of low-dimensional projections. It can display as a movie but has no capacity for interaction, such as stop/go, change tour type, drop/add variables. The tourrGui package provides these sorts of controls, but the interface is programmed with the dated RGtk2 package. This work explores using custom messages to pass data from R to D3 for viewing, using the Shiny framework. This is an approach that can be generally used for creating all sorts of interactive graphics. [ABSTRACT FROM AUTHOR]

Published

2019

8. Simplified dark matter models with a spin-2 mediator at the LHC.

Author

Laa, Ursula, Mawatari, Kentarou, Kraml, Sabine, and Yamashita, Kimiko

Subjects

*DARK matter, *STANDARD model (Nuclear physics), *RESONANCE, *ASTROPHYSICS, *METAPHYSICAL cosmology

Abstract

We consider simplified dark matter models where a dark matter candidate couples to the standard model (SM) particles via an s-channel spin-2 mediator, and study constraints on the model parameter space from the current LHC data. Our focus lies on the complementarity among different searches, in particular monojet and multijet plus missing-energy searches and resonance searches. For universal couplings of the mediator to SM particles, missing-energy searches can give stronger constraints than WW, ZZ, dijet, dihiggs, $$t\bar{t}$$ , $$b\bar{b}$$ resonance searches in the low-mass region and/or when the coupling of the mediator to dark matter is much larger than its couplings to SM particles. The strongest constraints, however, come from diphoton and dilepton resonance searches. Only if these modes are suppressed, missing-energy searches can be competitive in constraining dark matter models with a spin-2 mediator. [ABSTRACT FROM AUTHOR]

Published

2017

9. Visual Diagnostics for Constrained Optimisation with Application to Guided Tours.

Author

Zhang, H. Sherry, Cook, Dianne, Laa, Ursula, Langrené, Nicolas, and Menéndez, Patricia

Subjects

*PRINCIPAL components analysis, *TOURS, *TRAVELING salesman problem, *TOUR guides (Persons)

Abstract

A guided tour helps to visualise high-dimensional data by showing low-dimensional projections along a projection pursuit optimisation path. Projection pursuit is a generalisation of principal component analysis in the sense that different indexes are used to define the interestingness of the projected data. While much work has been done in developing new indexes in the literature, less has been done on understanding the optimisation. Index functions can be noisy, might have multiple local maxima as well as an optimal maximum, and are constrained to generate orthonormal projection frames, which complicates the optimization. In addition, projection pursuit is primarily used for exploratory data analysis, and finding the local maxima is also useful. The guided tour is especially useful for exploration because it conducts geodesic interpolation connecting steps in the optimisation and shows how the projected data changes as a maxima is approached. This work provides new visual diagnostics for examining a choice of optimisation procedure based on the provision of a new data object which collects information throughout the optimisation. It has helped to diagnose and fix several problems with projection pursuit guided tour. This work might be useful more broadly for diagnosing optimisers and comparing their performance. The diagnostics are implemented in the R package ferrn. [ABSTRACT FROM AUTHOR]

Published

2021

10. Anatomy of a six-parameter fit to the b→sℓ+ℓ- anomalies.

Author

Capdevila, Bernat, Laa, Ursula, and Valencia, German

Subjects

*ANATOMY, *MUONS, *QUARKS, *PHYSICS

Abstract

Discrepancies between measurements of decay modes with an underlying quark level transition b → s ℓ + ℓ - and standard model (SM) predictions have persisted for several years, particularly for the muon channels. The inadequacy of the SM becomes more compelling in a global fit. For example, Capdevila et al. (JHEP 01, 093. arXiv:1704.05340, 2018) described 175 observables by six parameters encoding new physics and quantified the disagreement with the SM at about the 5 σ level. While certain one and two parameter fits have previously been considered in detail, we establish a framework for the detailed discussion of the full 6d fit. We visualize and quantify the 6d 1 σ region around the best fit point and define fit uncertainties for both current and future observables. We then define metrics quantifying the deviations between measurements and both SM and best fit predictions. These metrics relate observables to directions in parameter space, revealing their precise role in the fit, thus providing guidance for future theoretical and experimental work. Some metrics further quantify the role of correlated uncertainties, which turns out to be significant. For example the relevance of angular observables such as P 5 ′ is reduced in this context. Finally, studying the space of observables allows us to discuss the internal tensions in the fit. [ABSTRACT FROM AUTHOR]

Published

2019

11. Dynamical projections for the visualization of PDFSense data.

Author

Cook, Dianne, Laa, Ursula, and Valencia, German

Subjects

*SENSITIVITY theory (Mathematics), *SENSITIVITY analysis, *HADRONIC atoms, *PARTICLES (Nuclear physics), *EMBEDDING theorems

Abstract

A recent paper on visualizing the sensitivity of hadronic experiments to nucleon structure (Wang et al. in arXiv:1803.02777, 2018) introduces the tool PDFSense which defines measures to allow the user to judge the sensitivity of PDF fits to a given experiment. The sensitivity is characterized by high-dimensional data residuals that are visualized in a 3-d subspace of the 10 first principal components or using non-linear embeddings. We show how a tour, a dynamic visualisation of high dimensional data, can extend this tool beyond 3-d relationships. This approach enables resolving structure orthogonal to the 2-d viewing plane used so far, and hence finer tuned assessment of the sensitivity. [ABSTRACT FROM AUTHOR]

Published

2018

12. The state‐of‐the‐art on tours for dynamic visualization of high‐dimensional data.

Author

Lee, Stuart, Cook, Dianne, da Silva, Natalia, Laa, Ursula, Spyrison, Nicholas, Wang, Earo, and Zhang, H. Sherry

Subjects

*DATA visualization, *DIMENSIONAL analysis, *TOURS, *DATA science, *COMPUTER software development

Abstract

This article discusses a high‐dimensional visualization technique called the tour, which can be used to view data in more than three dimensions. We review the theory and history behind the technique, as well as modern software developments and applications of the tour that are being found across the sciences and machine learning. This article is categorized under:Statistical and Graphical Methods of Data Analysis > Analysis of High Dimensional DataStatistical and Graphical Methods of Data Analysis > Statistical Graphics and VisualizationStatistical Learning and Exploratory Methods of the Data Sciences > Exploratory Data Analysis [ABSTRACT FROM AUTHOR]

Published

2022

13. SModelS: a tool for interpreting simplified-model results from the LHC and its application to supersymmetry.

Author

Kraml, Sabine, Kulkarni, Suchita, Laa, Ursula, Lessa, Andre, Magerl, Wolfgang, Proschofsky-Spindler, Doris, and Waltenberger, Wolfgang

Subjects

*STANDARD model (Nuclear physics), *LARGE Hadron Collider, *COLLIDERS (Nuclear physics), *PREDICTION models, *SUPERSYMMETRY, *PARTICLES (Nuclear physics)

Abstract

We present a general procedure to decompose Beyond the Standard Model (BSM) collider signatures presenting a $$\mathbb {Z}_2$$ symmetry into Simplified Model Spectrum (SMS) topologies. Our method provides a way to cast BSM predictions for the LHC in a model independent framework, which can be directly confronted with the relevant experimental constraints. Our concrete implementation currently focusses on supersymmetry searches with missing energy, for which a large variety of SMS results from ATLAS and CMS are available. As show-case examples we apply our procedure to two scans of the minimal supersymmetric standard model. We discuss how the SMS limits constrain various particle masses and which regions of parameter space remain unchallenged by the current SMS interpretations of the LHC results. [ABSTRACT FROM AUTHOR]

Published

2014

14. High-dimensional data visualisation with the grand tour.

Author

Doglioni, C., Kim, D., Stewart, G.A., Silvestris, L., Jackson, P., Kamleh, W., and Laa, Ursula

Subjects

*VISUALIZATION, *MACHINE learning, *DATA encryption, *EUCLIDEAN geometry, *INELASTIC scattering

Abstract

In physics we often encounter high-dimensional data, in the form of multivariate measurements or of models with multiple free parameters. The information encoded is increasingly explored using machine learning, but is not typically explored visually. The barrier tends to be visualising beyond 3D, but systematic approaches for this exist in the statistics literature. I use examples from particle and astrophysics to show how we can use the "grand tour" for such multidimensional visualisations, for example to explore grouping in high dimension and for visual identification of multivariate outliers. I then discuss the idea of projection pursuit, i.e. searching the high-dimensional space for "interesting" low dimensional projections, and illustrate how we can detect complex associations between multiple parameters. [ABSTRACT FROM AUTHOR]

Published

2020

15. SModelS v1.1 user manual: Improving simplified model constraints with efficiency maps.

Author

Ambrogi, Federico, Kraml, Sabine, Kulkarni, Suchita, Laa, Ursula, Lessa, Andre, Magerl, Veronika, Sonneveld, Jory, Traub, Michael, and Waltenberger, Wolfgang

Subjects

*TOPOLOGY, *SPECTRUM analysis, *PHYSICS, *MAPS, *COMPUTER software

Abstract

SModelS is an automatized tool for the interpretation of simplified model results from the LHC. It allows to decompose models of new physics obeying a Z 2 symmetry into simplified model components, and to compare these against a large database of experimental results. The first release of SModelS, v1.0, used only cross section upper limit maps provided by the experimental collaborations. In this new release, v1.1, we extend the functionality of SModelS to efficiency maps. This increases the constraining power of the software, as efficiency maps allow to combine contributions to the same signal region from different simplified models. Other new features of version 1.1 include likelihood and χ 2 calculations, extended information on the topology coverage, an extended database of experimental results as well as major speed upgrades for both the code and the database. We describe in detail the concepts and procedures used in SModelS v1.1, explaining in particular how upper limits and efficiency map results are dealt with in parallel. Detailed instructions for code usage are also provided. Program summary Program Title: SModelS Program Files doi: http://dx.doi.org/10.17632/w4nft4459w.1 Licensing provisions: GPLv3 Programming language: Python Nature of problem: The results for searches for new physics beyond the Standard Model (BSM) at the Large Hadron Collider are often communicated by the experimental collaborations in terms of constraints on so-called simplified models spectra (SMS). Understanding how SMS constraints impact a realistic new physics model, where possibly a multitude of relevant production channels and decay modes are relevant, is a non-trivial task. Solution method: We exploit the notion of simplified models to constrain full models by “decomposing” them into their SMS components. A database of SMS results obtained from the official results of the ATLAS and CMS collaborations, but in part also from ‘recasting’ the experimental analyses, can be matched against the decomposed model, resulting in a statement to what extent the model at hand is in agreement or contradiction with the experimental results. Further useful information on, e.g. , the coverage of the models’ signatures is also provided. Additional comments including Restrictions and Unusual features: At present, the tool is limited to signatures with missing transverse energy, and only models with a Z 2 -like symmetry can be tested. Each SMS is defined purely by the vertex structure and the SM final state particles; BSM particles are described only by their masses, production cross sections and branching ratios. Possible differences in signal selection efficiencies arising, e.g. , from different production mechanisms or from the spin of the BSM particles, are ignored in this approach. Since only part of the full model can be constrained by SMS results, SModelS will always remain more conservative (though orders of magnitude faster) than “full recasting” approaches. [ABSTRACT FROM AUTHOR]

Published

2018

16. SModelS v1.2: Long-lived particles, combination of signal regions, and other novelties.

Author

Ambrogi, Federico, Dutta, Juhi, Heisig, Jan, Kraml, Sabine, Kulkarni, Suchita, Laa, Ursula, Lessa, Andre, Neuhuber, Philipp, Reyes-González, Humberto, Waltenberger, Wolfgang, and Wolf, Matthias

Subjects

*LARGE Hadron Collider, *DIFFERENTIAL cross sections, *Z bosons, *BRANCHING ratios, *COVARIANCE matrices, *PARTICLES

Abstract

SModelS is an automatized tool enabling the fast interpretation of simplified model results from the LHC within any model of new physics respecting a Z 2 symmetry. With the version 1.2 we announce several new features. First, previous versions were restricted to missing energy signatures and assumed prompt decays within each decay chain. SModelS v1.2 considers the lifetime of each Z 2 -odd particle and appropriately takes into account missing energy, heavy stable charged particle and R-hadron signatures. Second, the current version allows for a combination of signal regions in efficiency map results whenever a covariance matrix is available from the experiment. This is an important step towards fully exploiting the constraining power of efficiency map results. Several other improvements increase the user-friendliness, such as the use of wildcards in the selection of experimental results, and a faster database which can be given as a URL. Finally, smodelsTools provides an interactive plots maker to conveniently visualize the results of a model scan. Program Title: SModelS Program Files doi: http://dx.doi.org/10.17632/w4nft4459w.2 Licensing provisions: GPLv3 Programming language: Python3 Journal reference of previous version: Comput. Phys. Commun. 227 (2018) 72 Does the new version supersede the previous version?: Yes Reasons for the new version: Addition of new features. Summary of revisions: The most important new features in v1.2 are the combination of signal regions in efficiency map results whenever a covariance matrix is available from the experiment, and the implementation of heavy stable charged particle and R-hadron signatures. Moreover, the database of experimental results can now be given as a URL, and the pickling has been improved to make the database faster. Other improvements include that wildcards are allowed when selecting analyses, datasets or topologies, and that the path to the model file, formerly required to be smodels/sparticles.py, can be specified in the parameters card. For the convenience of the user, we also provide a tool to make interactive plots to visualize the results of a model scan. Finally, the whole code now also runs with Python 3, which has become the recommended default, and it can now be installed in its source directory. Nature of problem: The results for searches for new physics beyond the Standard Model (BSM) at the Large Hadron Collider are often communicated by the experimental collaborations in terms of constraints on so-called simplified models spectra (SMS). Understanding how SMS constraints impact a realistic new physics model, where possibly a multitude of production channels and decay modes are relevant, is a non-trivial task. Solution method: We exploit the notion of simplified models to constrain full models by "decomposing" them into their SMS components. A database of SMS results obtained from the official results of the ATLAS and CMS collaborations, but in part also from 'recasting' the experimental analyses, can be matched against the decomposed model, resulting in a statement to what extent the model at hand is in agreement or contradiction with the experimental results. Further useful information on, e.g., the coverage of the model's signatures is also provided. Additional comments including restrictions and unusual features: At present, only models with a Z 2 -like symmetry can be tested. Each SMS is defined purely by the vertex structure and the final-state particles; initial and intermediate BSM particles are described only by their masses, production cross sections, branching ratios and total widths. Possible differences in signal selection efficiencies arising, e.g., from different production mechanisms or from the spin of the BSM particles, are ignored in this approach. Since only part of the full model can be constrained by SMS results, SModelS will always remain more conservative (though orders of magnitude faster) than "full recasting" approaches. [1] F. Ambrogi et al., "SModelS v1.1 user manual: Improving simplified model constraints with efficiency maps," Comput. Phys. Commun. 227 (2018) 72 [arXiv:1701.06586 [hep-ph]]. [ABSTRACT FROM AUTHOR]

Published

2020

17. On the coverage of the pMSSM by simplified model results.

Author

Ambrogi, Federico, Kraml, Sabine, Kulkarni, Suchita, Laa, Ursula, Lessa, Andre, and Waltenberger, Wolfgang

Subjects

*CHARGINOS, *GLUINO, *SFERMION, *RADIOACTIVE decay, NEUTRALINOS

Abstract

We investigate to which extent the SUSY search results published by ATLAS and CMS in the context of simplified models actually cover the more realistic scenarios of a full model. Concretely, we work within the phenomenological MSSM (pMSSM) with 19 free parameters and compare the constraints obtained from SModelS v1.1.1 with those from the ATLAS pMSSM study in arXiv:1508.06608. We find that about 40-45% of the points excluded by ATLAS escape the currently available simplified model constraints. For these points we identify the most relevant topologies which are not tested by the current simplified model results. In particular, we find that topologies with asymmetric branches, including 3-jet signatures from gluino-squark associated production, could be important for improving the current constraining power of simplified models results. Furthermore, for a better coverage of light stops and sbottoms, constraints for decays via heavier neutralinos and charginos, which subsequently decay visibly to the lightest neutralino are also needed. [ABSTRACT FROM AUTHOR]

Published

2018