The fNIRS glossary project: a consensus-based resource for functional near-infrared spectroscopy terminology.
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BORIS DOI
Date of Publication
April 2025
Publication Type
Article
Division/Institute
Contributor
Stute, Katharina | |
Gossé, Louisa K | |
Montero-Hernandez, Samuel | |
Perkins, Guy A | |
Yücel, Meryem A | |
Cutini, Simone | |
Durduran, Turgut | |
Ehlis, Ann-Christine | |
Ferrari, Marco | |
Gervain, Judit | |
Mesquita, Rickson C | |
Orihuela-Espina, Felipe | |
Quaresima, Valentina | |
Tachtsidis, Ilias | |
Torricelli, Alessandro | |
Wabnitz, Heidrun | |
Yodh, Arjun G | |
Carp, Stefan A | |
Dehghani, Hamid | |
Fang, Qianqian | |
Fantini, Sergio | |
Hoshi, Yoko | |
Niu, Haijing | |
Obrig, Hellmuth | |
Klein, Franziska | |
Artemenko, Christina | |
Bajracharya, Aahana | |
Barth, Beatrix | |
Bartkowski, Christian | |
Borot, Lénac | |
Bulgarelli, Chiara | |
Busch, David R | |
Chojak, Malgorzata | |
DeFreitas, Jason M | |
Diprossimo, Laura | |
Dresler, Thomas | |
Eken, Aykut | |
Elsherif, Mahmoud M | |
Emberson, Lauren L | |
Exner, Anna | |
Ferdous, Talukdar Raian | |
Fiske, Abigail | |
Forbes, Samuel H | |
Gemignani, Jessica | |
Gerloff, Christian | |
Guérin, Ségolène M R | |
Guevara, Edgar | |
Hamilton, Antonia F de C | |
Hadi Hosseini, S M | |
Jain, Divya | |
Kerr-German, Anastasia N | |
Kong, Haiyan | |
Kroczek, Agnes | |
Longhurst, Jason K | |
Lührs, Michael | |
MacLennan, Rob J | |
Mehler, David M A | |
Meidenbauer, Kimberly L | |
Moreau, David | |
Mutlu, Murat C | |
Orti, Renato | |
Paranawithana, Ishara | |
Pinti, Paola | |
Jounghani, Ali Rahimpour | |
Reindl, Vanessa | |
Ross, Nicholas A | |
Sanchez-Alonso, Sara | |
Seidel-Marzi, Oliver | |
Shukla, Mohinish | |
Usama, Syed A | |
Talati, Musa | |
Vergotte, Grégoire | |
Atif Yaqub, M | |
Yu, Chia-Chuan | |
Zainodini, Hanieh |
Subject(s)
Series
Neurophotonics
ISSN or ISBN (if monograph)
2329-423X
Publisher
Society of Photo-optical Instrumentation Engineers
Language
English
Publisher DOI
PubMed ID
40256456
Description
Significance
A shared understanding of terminology is essential for clear scientific communication and minimizing misconceptions. This is particularly challenging in rapidly expanding, interdisciplinary domains that utilize functional near-infrared spectroscopy (fNIRS), where researchers come from diverse backgrounds and apply their expertise in fields such as engineering, neuroscience, and psychology.Aim
The fNIRS Glossary Project was established to develop a community-sourced glossary covering key fNIRS terms, including those related to the continuous-wave (CW), frequency-domain (FD), and time-domain (TD) NIRS techniques.Approach
The glossary was collaboratively developed by a diverse group of 76 fNIRS researchers, representing a wide range of career stages (from PhD students to experts) and disciplines. This collaborative process, structured across five phases, ensured the glossary's depth and comprehensiveness.Results
The glossary features over 300 terms categorized into six key domains: analysis, experimental design, hardware, neuroscience, mathematics, and physics. It also includes abbreviations, symbols, synonyms, references, alternative definitions, and figures where relevant.Conclusions
The fNIRS glossary provides a community-sourced resource that facilitates education and effective scientific communication within the fNIRS community and related fields. By lowering barriers to learning and engaging with fNIRS, the glossary is poised to benefit a broad spectrum of researchers, including those with limited access to educational resources.
A shared understanding of terminology is essential for clear scientific communication and minimizing misconceptions. This is particularly challenging in rapidly expanding, interdisciplinary domains that utilize functional near-infrared spectroscopy (fNIRS), where researchers come from diverse backgrounds and apply their expertise in fields such as engineering, neuroscience, and psychology.Aim
The fNIRS Glossary Project was established to develop a community-sourced glossary covering key fNIRS terms, including those related to the continuous-wave (CW), frequency-domain (FD), and time-domain (TD) NIRS techniques.Approach
The glossary was collaboratively developed by a diverse group of 76 fNIRS researchers, representing a wide range of career stages (from PhD students to experts) and disciplines. This collaborative process, structured across five phases, ensured the glossary's depth and comprehensiveness.Results
The glossary features over 300 terms categorized into six key domains: analysis, experimental design, hardware, neuroscience, mathematics, and physics. It also includes abbreviations, symbols, synonyms, references, alternative definitions, and figures where relevant.Conclusions
The fNIRS glossary provides a community-sourced resource that facilitates education and effective scientific communication within the fNIRS community and related fields. By lowering barriers to learning and engaging with fNIRS, the glossary is poised to benefit a broad spectrum of researchers, including those with limited access to educational resources.
File(s)
| File | File Type | Format | Size | License | Publisher/Copright statement | Content | |
|---|---|---|---|---|---|---|---|
| 027801_1.pdf | text | Adobe PDF | 4.37 MB | Attribution (CC BY 4.0) | published |