DatAR: Comparing Relationships between Brain Regions and Diseases: An Immersive AR Tool for Neuroscientists

Ghazaleh Tanhaei; Lynda Hardman; Wolfgang Hürst

doi:10.1145/3573381.3597222

DatAR: Comparing Relationships between Brain Regions and Diseases: An Immersive AR Tool for Neuroscientists

Ghazaleh Tanhaei, Lynda Hardman, Wolfgang Hürst

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

Abstract

Different brain diseases are associated with distinct patterns of affected brain regions. Neuroscientists aim to understand the variability of these patterns across different brain diseases. We used a user-centered design approach to develop support for neuroscientists in exploring and comparing which regions are affected by which diseases based on neuroscience literature. Our study involved six neuroscientists and nine visualization experts who evaluated the usability and explainability of our visualization tool for comparing disease patterns in brain regions. Our results show that our tool can help neuroscientists explore and visualize relationships between brain regions and diseases, and compare patterns of affected regions in an immersive AR environment.

Original language	English
Title of host publication	IMX '23: Proceedings of the 2023 ACM International Conference on Interactive Media Experiences
Editors	Patrick Le Callet, Matthieu Perreira Da Silva, Toinon Vigier, Koray Tahiroğlu, Niall Murray, Giuseppe Valenzise, Mea Wang
Publisher	Association for Computing Machinery
Pages	373-375
Number of pages	3
ISBN (Print)	979-8-4007-0028-6
DOIs	https://doi.org/10.1145/3573381.3597222
Publication status	Published - 29 Aug 2023

Bibliographical note

Publisher Copyright:
© 2023 Owner/Author.

Keywords

augmented reality
exploratory search
information visualization and visual analytics
measures of user experience and performance
neuroscience literature search
virtual reality

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10.1145/3573381.3597222

3573381.3597222Final published version, 1.39 MBLicence: Taverne

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Tanhaei, G., Hardman, L., & Hürst, W. (2023). DatAR: Comparing Relationships between Brain Regions and Diseases: An Immersive AR Tool for Neuroscientists. In P. Le Callet, M. Perreira Da Silva, T. Vigier, K. Tahiroğlu, N. Murray, G. Valenzise, & M. Wang (Eds.), IMX '23: Proceedings of the 2023 ACM International Conference on Interactive Media Experiences (pp. 373-375). Association for Computing Machinery. https://doi.org/10.1145/3573381.3597222

Tanhaei, Ghazaleh ; Hardman, Lynda ; Hürst, Wolfgang. / DatAR: Comparing Relationships between Brain Regions and Diseases: An Immersive AR Tool for Neuroscientists. IMX '23: Proceedings of the 2023 ACM International Conference on Interactive Media Experiences. editor / Patrick Le Callet ; Matthieu Perreira Da Silva ; Toinon Vigier ; Koray Tahiroğlu ; Niall Murray ; Giuseppe Valenzise ; Mea Wang. Association for Computing Machinery, 2023. pp. 373-375

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title = "DatAR: Comparing Relationships between Brain Regions and Diseases: An Immersive AR Tool for Neuroscientists",

abstract = "Different brain diseases are associated with distinct patterns of affected brain regions. Neuroscientists aim to understand the variability of these patterns across different brain diseases. We used a user-centered design approach to develop support for neuroscientists in exploring and comparing which regions are affected by which diseases based on neuroscience literature. Our study involved six neuroscientists and nine visualization experts who evaluated the usability and explainability of our visualization tool for comparing disease patterns in brain regions. Our results show that our tool can help neuroscientists explore and visualize relationships between brain regions and diseases, and compare patterns of affected regions in an immersive AR environment.",

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author = "Ghazaleh Tanhaei and Lynda Hardman and Wolfgang H{\"u}rst",

note = "Publisher Copyright: {\textcopyright} 2023 Owner/Author.",

year = "2023",

month = aug,

day = "29",

doi = "10.1145/3573381.3597222",

language = "English",

isbn = "979-8-4007-0028-6",

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editor = "{Le Callet}, {Patrick } and {Perreira Da Silva}, {Matthieu } and Vigier, {Toinon } and Tahiroğlu, {Koray } and Murray, {Niall } and Valenzise, {Giuseppe } and Wang, {Mea }",

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Tanhaei, G, Hardman, L & Hürst, W 2023, DatAR: Comparing Relationships between Brain Regions and Diseases: An Immersive AR Tool for Neuroscientists. in P Le Callet, M Perreira Da Silva, T Vigier, K Tahiroğlu, N Murray, G Valenzise & M Wang (eds), IMX '23: Proceedings of the 2023 ACM International Conference on Interactive Media Experiences. Association for Computing Machinery, pp. 373-375. https://doi.org/10.1145/3573381.3597222

DatAR: Comparing Relationships between Brain Regions and Diseases: An Immersive AR Tool for Neuroscientists. / Tanhaei, Ghazaleh; Hardman, Lynda ; Hürst, Wolfgang.
IMX '23: Proceedings of the 2023 ACM International Conference on Interactive Media Experiences. ed. / Patrick Le Callet; Matthieu Perreira Da Silva; Toinon Vigier; Koray Tahiroğlu; Niall Murray; Giuseppe Valenzise; Mea Wang. Association for Computing Machinery, 2023. p. 373-375.

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

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T1 - DatAR: Comparing Relationships between Brain Regions and Diseases: An Immersive AR Tool for Neuroscientists

AU - Tanhaei, Ghazaleh

AU - Hardman, Lynda

AU - Hürst, Wolfgang

PY - 2023/8/29

Y1 - 2023/8/29

N2 - Different brain diseases are associated with distinct patterns of affected brain regions. Neuroscientists aim to understand the variability of these patterns across different brain diseases. We used a user-centered design approach to develop support for neuroscientists in exploring and comparing which regions are affected by which diseases based on neuroscience literature. Our study involved six neuroscientists and nine visualization experts who evaluated the usability and explainability of our visualization tool for comparing disease patterns in brain regions. Our results show that our tool can help neuroscientists explore and visualize relationships between brain regions and diseases, and compare patterns of affected regions in an immersive AR environment.

AB - Different brain diseases are associated with distinct patterns of affected brain regions. Neuroscientists aim to understand the variability of these patterns across different brain diseases. We used a user-centered design approach to develop support for neuroscientists in exploring and comparing which regions are affected by which diseases based on neuroscience literature. Our study involved six neuroscientists and nine visualization experts who evaluated the usability and explainability of our visualization tool for comparing disease patterns in brain regions. Our results show that our tool can help neuroscientists explore and visualize relationships between brain regions and diseases, and compare patterns of affected regions in an immersive AR environment.

KW - augmented reality

KW - exploratory search

KW - information visualization and visual analytics

KW - measures of user experience and performance

KW - neuroscience literature search

KW - virtual reality

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M3 - Conference contribution

SN - 979-8-4007-0028-6

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EP - 375

BT - IMX '23: Proceedings of the 2023 ACM International Conference on Interactive Media Experiences

A2 - Le Callet, Patrick

A2 - Perreira Da Silva, Matthieu

A2 - Vigier, Toinon

A2 - Tahiroğlu, Koray

A2 - Murray, Niall

A2 - Valenzise, Giuseppe

A2 - Wang, Mea

PB - Association for Computing Machinery

ER -

Tanhaei G, Hardman L , Hürst W. DatAR: Comparing Relationships between Brain Regions and Diseases: An Immersive AR Tool for Neuroscientists. In Le Callet P, Perreira Da Silva M, Vigier T, Tahiroğlu K, Murray N, Valenzise G, Wang M, editors, IMX '23: Proceedings of the 2023 ACM International Conference on Interactive Media Experiences. Association for Computing Machinery. 2023. p. 373-375 doi: 10.1145/3573381.3597222

DatAR: Comparing Relationships between Brain Regions and Diseases: An Immersive AR Tool for Neuroscientists

Abstract

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Keywords

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