ShaRP: Shape-Regularized Multidimensional Projections

Alister Machado; Alex Telea; Michael Behrisch

doi:10.2312/eurova.20231088

ShaRP: Shape-Regularized Multidimensional Projections

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › Academic › peer-review

Abstract

Projections, or dimensionality reduction methods, are techniques of choice for the visual exploration of high-dimensional data. Many such techniques exist, each one of them having a distinct visual signature — i.e., a recognizable way to arrange points in the resulting scatterplot. Such signatures are implicit consequences of algorithm design, such as whether the method focuses on local vs global data pattern preservation; optimization techniques; and hyperparameter settings. We present a novel projection technique — ShaRP — that provides users explicit control over the visual signature of the created scatterplot, which can cater better to interactive visualization scenarios. ShaRP scales well with dimensionality and dataset size, generically handles any quantitative dataset, and provides this extended functionality of controlling projection shapes at a small, user-controllable cost in terms of quality metrics.

Original language	English
Title of host publication	EuroVA 2023 - EuroVis Workshop on Visual Analytics
Editors	Mennatallah Angelini, Marco El-Assady
Publisher	The Eurographics Association
Pages	1-6
Number of pages	6
ISBN (Electronic)	9783038682226
ISBN (Print)	978-3-03868-222-6
DOIs	https://doi.org/10.2312/eurova.20231088
Publication status	Published - 2023

Publication series

Name	International Workshop on Visual Analytics
Volume	2023-June
ISSN (Electronic)	2664-4487

Bibliographical note

Publisher Copyright:
© 2023 The Authors.

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10.2312/eurova.20231088Licence: CC BY

001-006Final published version, 5.95 MBLicence: CC BY

Cite this

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title = "ShaRP: Shape-Regularized Multidimensional Projections",

abstract = "Projections, or dimensionality reduction methods, are techniques of choice for the visual exploration of high-dimensional data. Many such techniques exist, each one of them having a distinct visual signature — i.e., a recognizable way to arrange points in the resulting scatterplot. Such signatures are implicit consequences of algorithm design, such as whether the method focuses on local vs global data pattern preservation; optimization techniques; and hyperparameter settings. We present a novel projection technique — ShaRP — that provides users explicit control over the visual signature of the created scatterplot, which can cater better to interactive visualization scenarios. ShaRP scales well with dimensionality and dataset size, generically handles any quantitative dataset, and provides this extended functionality of controlling projection shapes at a small, user-controllable cost in terms of quality metrics.",

author = "Alister Machado and Alex Telea and Michael Behrisch",

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year = "2023",

doi = "10.2312/eurova.20231088",

language = "English",

isbn = "978-3-03868-222-6",

series = "International Workshop on Visual Analytics",

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}

ShaRP: Shape-Regularized Multidimensional Projections. / Machado, Alister ; Telea, Alex ; Behrisch, Michael.
EuroVA 2023 - EuroVis Workshop on Visual Analytics. ed. / Mennatallah Angelini; Marco El-Assady. The Eurographics Association, 2023. p. 1-6 (International Workshop on Visual Analytics; Vol. 2023-June).

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › Academic › peer-review

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PY - 2023

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N2 - Projections, or dimensionality reduction methods, are techniques of choice for the visual exploration of high-dimensional data. Many such techniques exist, each one of them having a distinct visual signature — i.e., a recognizable way to arrange points in the resulting scatterplot. Such signatures are implicit consequences of algorithm design, such as whether the method focuses on local vs global data pattern preservation; optimization techniques; and hyperparameter settings. We present a novel projection technique — ShaRP — that provides users explicit control over the visual signature of the created scatterplot, which can cater better to interactive visualization scenarios. ShaRP scales well with dimensionality and dataset size, generically handles any quantitative dataset, and provides this extended functionality of controlling projection shapes at a small, user-controllable cost in terms of quality metrics.

AB - Projections, or dimensionality reduction methods, are techniques of choice for the visual exploration of high-dimensional data. Many such techniques exist, each one of them having a distinct visual signature — i.e., a recognizable way to arrange points in the resulting scatterplot. Such signatures are implicit consequences of algorithm design, such as whether the method focuses on local vs global data pattern preservation; optimization techniques; and hyperparameter settings. We present a novel projection technique — ShaRP — that provides users explicit control over the visual signature of the created scatterplot, which can cater better to interactive visualization scenarios. ShaRP scales well with dimensionality and dataset size, generically handles any quantitative dataset, and provides this extended functionality of controlling projection shapes at a small, user-controllable cost in terms of quality metrics.

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ER -

ShaRP: Shape-Regularized Multidimensional Projections

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