The selected EEG-fNIRS channel locations of the International 10–20 system.

fNIRS, EEG and EOG classification accuracy used to generate Fig 4

Chaudhary, Ujwal (5191039)
Silvoni, Stefano (5191042)

May 2018

fNIRS (functional near infrared spectroscopy), EEG (Electroencephalograph) and EOG (Electrooculog...

Functional near infrared spectroscopy system validation for simultaneous EEG-FNIRS measurements

Giaconia G. C.
Greco G.
Mistretta L.
Rizzo R.
Merla A.
Chiarelli A. M.
Zappasodi F.
Edlinger G.

January 2019

Functional near-infrared spectroscopy (fNIRS) applied to brain monitoring has been gaining increasin...

Functional near infrared spectroscopy system validation for simultaneous EEG-FNIRS measurements

Giaconia G. C.
Greco G.
Mistretta L.
Rizzo R.
Merla A.
Chiarelli A. M.
Zappasodi F.
Edlinger G.

January 2019

Functional near-infrared spectroscopy (fNIRS) applied to brain monitoring has been gaining increasin...

The selected electrode locations of the International 10–20 system (29 EEG recording electrodes (black circles), one ground and one reference electrode (red circles) used in this paper).

Seul-Ki Yeom (657325)
Siamac Fazli (273240)
Klaus-Robert Müller (52696)
Seong-Whan Lee (391862)

November 2014

The selected electrode locations of the International 10–20 system (29 EEG recording electrodes (...

The locations of fNIRS channels and the experimental environment.

Chia-Feng Lu (427227)
Yan-Ci Liu (755496)
Yea-Ru Yang (345825)
Yu-Te Wu (303371)
Ray-Yau Wang (345832)

June 2015

(a) The arrangement of source-detector locations based on the international 10–5 system. Red circ...

Schematic of fNIRS channel localization.

Haijing Niu (132773)
Zhen Li (49109)
Xuhong Liao (456362)
Jinhui Wang (37220)
Tengda Zhao (132775)
Ni Shu (126233)
Xiaohu Zhao (175664)
Yong He (115255)

September 2013

(A) and (C) display the left and right view of measurement channels on an anatomical brain image....

Measurement of cortical activity by functional near-infrared spectroscopy (fNIRS).

Francois Alexandre (590108)
Nelly Heraud (590109)
Nicolas Oliver (590110)
Alain Varray (505332)

June 2014

a) fNIRS optode placement. Three receivers (black circles) and seven emitters (white circles) wer...

Diagram of fNIRS set-up with the sensor placed over O2 (right hemisphere, 10–20 EEG system).

Laura McKernan Ward (729563)
Ross Thomas Aitchison (729564)
Melisa Tawse (729565)
Anita Jane Simmers (729566)
Uma Shahani (729567)

April 2015

All recordings were taken from over both right (O2) and left (O1) primary visual cortices (blue r...

EEG electrode locations.

Isao Nambu (202451)
Masashi Ebisawa (271189)
Masumi Kogure (378638)
Shohei Yano (378639)
Haruhide Hokari (378640)
Yasuhiro Wada (378641)

February 2013

Spatial location of 64 channels EEG (A), 19 channels (B), and 6 channels (C). Reference electrode...

A portable fNIRS system with eight channels

Si, Juanning
Zhao, Ruirui
Zhang, Yujin
Zuo, Nianming
Zhang, Xin
Jiang, Tianzi

January 2015

Abundant study on the hemodynamic response of a brain have brought quite a few advances in technolog...

Location of EEG electrodes (blue, white, and gray circles) and NIRS channels (red circles).

Jaeyoung Shin (3849238)
Klaus-Robert Müller (52696)
Han-Jeong Hwang (3849232)

May 2018

Gray indicates the ground electrode. Blue and white electrodes represent frontal and parieto-occi...

Near-infrared spectroscopy (NIRS).

Shun Miyashiro (10183827)
Yurika Yamada (9181916)
Masaru Nagaoka (11320651)
Rei Shima (11320654)
Toshizumi Muta (10183830)
Haruyuki Ishikawa (10183833)
Tetsuri Abe (10183836)
Masashi Hori (10183839)
Kotaro Oka (145488)
Fusako Koshikawa (10183842)
Etsuro Ito (218925)

August 2021

A. A picture of a typical participant equipped with NIRS optodes. B and C. The NIRS comprised 8 elem...

Probe design.

Helga O. Miguel (10158581)
Emma E. Condy (10158578)
Thien Nguyen (2311528)
Selin Zeytinoglu (11273226)
Emily Blick (11273229)
Kimberly Bress (11273232)
Kosar Khaksari (10158590)
Hadis Dashtestani (5340884)
John Millerhagen (10158584)
Sheida Shahmohammadi (11273235)
Nathan A. Fox (9401034)
Amir Gandjbakhche (150312)

August 2021

(a) fNIRS probe was embedded within an elastic, 128-electrode electroencephalogram (EEG) cap. (b) se...

(Color on-line) Setup for EEG channels: 64 electrodes as per the international 10-20 system (excluding electrodes Nz, F9, F10, FT9, FT10, A1, A2, TP9, TP10, P9, and P10).

Gilney Figueira Zebende (4436374)
Florêncio Mendes Oliveira Filho (4436380)
Juan Alberto Leyva Cruz (4436377)

September 2017

The specific points (full circle in red) (F332, F637, P</i...

Functional near-infrared spectroscopy (fNIRS) records cortical hemodynamic responses in populations that cannot comfortably be inside the MR scanner such as young infants.

Lauren L. Emberson (3936995)
Benjamin D. Zinszer (3936998)
Rajeev D. S. Raizada (438141)
Richard N. Aslin (162568)

April 2017

Pairs of detectors and emitters form an fNIRS channel (from Gervain et al., 2011 with permission)...

fNIRS, EEG and EOG classification accuracy used to generate Fig 4

Chaudhary, Ujwal (5191039)
Silvoni, Stefano (5191042)

May 2018

fNIRS (functional near infrared spectroscopy), EEG (Electroencephalograph) and EOG (Electrooculog...

Functional near infrared spectroscopy system validation for simultaneous EEG-FNIRS measurements

Giaconia G. C.
Greco G.
Mistretta L.
Rizzo R.
Merla A.
Chiarelli A. M.
Zappasodi F.
Edlinger G.

January 2019

Functional near-infrared spectroscopy (fNIRS) applied to brain monitoring has been gaining increasin...

Functional near infrared spectroscopy system validation for simultaneous EEG-FNIRS measurements

Giaconia G. C.
Greco G.
Mistretta L.
Rizzo R.
Merla A.
Chiarelli A. M.
Zappasodi F.
Edlinger G.

January 2019

Functional near-infrared spectroscopy (fNIRS) applied to brain monitoring has been gaining increasin...

The selected electrode locations of the International 10–20 system (29 EEG recording electrodes (black circles), one ground and one reference electrode (red circles) used in this paper).

Seul-Ki Yeom (657325)
Siamac Fazli (273240)
Klaus-Robert Müller (52696)
Seong-Whan Lee (391862)

November 2014

The selected electrode locations of the International 10–20 system (29 EEG recording electrodes (...

The locations of fNIRS channels and the experimental environment.

Chia-Feng Lu (427227)
Yan-Ci Liu (755496)
Yea-Ru Yang (345825)
Yu-Te Wu (303371)
Ray-Yau Wang (345832)

June 2015

(a) The arrangement of source-detector locations based on the international 10–5 system. Red circ...

Schematic of fNIRS channel localization.

Haijing Niu (132773)
Zhen Li (49109)
Xuhong Liao (456362)
Jinhui Wang (37220)
Tengda Zhao (132775)
Ni Shu (126233)
Xiaohu Zhao (175664)
Yong He (115255)

September 2013

(A) and (C) display the left and right view of measurement channels on an anatomical brain image....

Measurement of cortical activity by functional near-infrared spectroscopy (fNIRS).

Francois Alexandre (590108)
Nelly Heraud (590109)
Nicolas Oliver (590110)
Alain Varray (505332)

June 2014

a) fNIRS optode placement. Three receivers (black circles) and seven emitters (white circles) wer...

Diagram of fNIRS set-up with the sensor placed over O2 (right hemisphere, 10–20 EEG system).

Laura McKernan Ward (729563)
Ross Thomas Aitchison (729564)
Melisa Tawse (729565)
Anita Jane Simmers (729566)
Uma Shahani (729567)

April 2015

All recordings were taken from over both right (O2) and left (O1) primary visual cortices (blue r...

EEG electrode locations.

Isao Nambu (202451)
Masashi Ebisawa (271189)
Masumi Kogure (378638)
Shohei Yano (378639)
Haruhide Hokari (378640)
Yasuhiro Wada (378641)

February 2013

Spatial location of 64 channels EEG (A), 19 channels (B), and 6 channels (C). Reference electrode...

A portable fNIRS system with eight channels

Si, Juanning
Zhao, Ruirui
Zhang, Yujin
Zuo, Nianming
Zhang, Xin
Jiang, Tianzi

January 2015

Abundant study on the hemodynamic response of a brain have brought quite a few advances in technolog...

Location of EEG electrodes (blue, white, and gray circles) and NIRS channels (red circles).

Jaeyoung Shin (3849238)
Klaus-Robert Müller (52696)
Han-Jeong Hwang (3849232)

May 2018

Gray indicates the ground electrode. Blue and white electrodes represent frontal and parieto-occi...

Near-infrared spectroscopy (NIRS).

Shun Miyashiro (10183827)
Yurika Yamada (9181916)
Masaru Nagaoka (11320651)
Rei Shima (11320654)
Toshizumi Muta (10183830)
Haruyuki Ishikawa (10183833)
Tetsuri Abe (10183836)
Masashi Hori (10183839)
Kotaro Oka (145488)
Fusako Koshikawa (10183842)
Etsuro Ito (218925)

August 2021

A. A picture of a typical participant equipped with NIRS optodes. B and C. The NIRS comprised 8 elem...

Probe design.

Helga O. Miguel (10158581)
Emma E. Condy (10158578)
Thien Nguyen (2311528)
Selin Zeytinoglu (11273226)
Emily Blick (11273229)
Kimberly Bress (11273232)
Kosar Khaksari (10158590)
Hadis Dashtestani (5340884)
John Millerhagen (10158584)
Sheida Shahmohammadi (11273235)
Nathan A. Fox (9401034)
Amir Gandjbakhche (150312)

August 2021

(a) fNIRS probe was embedded within an elastic, 128-electrode electroencephalogram (EEG) cap. (b) se...

(Color on-line) Setup for EEG channels: 64 electrodes as per the international 10-20 system (excluding electrodes Nz, F9, F10, FT9, FT10, A1, A2, TP9, TP10, P9, and P10).

Gilney Figueira Zebende (4436374)
Florêncio Mendes Oliveira Filho (4436380)
Juan Alberto Leyva Cruz (4436377)

September 2017

The specific points (full circle in red) (F332, F637, P</i...

Functional near-infrared spectroscopy (fNIRS) records cortical hemodynamic responses in populations that cannot comfortably be inside the MR scanner such as young infants.

Lauren L. Emberson (3936995)
Benjamin D. Zinszer (3936998)
Rajeev D. S. Raizada (438141)
Richard N. Aslin (162568)

April 2017

Pairs of detectors and emitters form an fNIRS channel (from Gervain et al., 2011 with permission)...

fNIRS, EEG and EOG classification accuracy used to generate Fig 4

Chaudhary, Ujwal (5191039)
Silvoni, Stefano (5191042)

May 2018

fNIRS (functional near infrared spectroscopy), EEG (Electroencephalograph) and EOG (Electrooculog...

Functional near infrared spectroscopy system validation for simultaneous EEG-FNIRS measurements

Giaconia G. C.
Greco G.
Mistretta L.
Rizzo R.
Merla A.
Chiarelli A. M.
Zappasodi F.
Edlinger G.

January 2019

Functional near-infrared spectroscopy (fNIRS) applied to brain monitoring has been gaining increasin...

Functional near infrared spectroscopy system validation for simultaneous EEG-FNIRS measurements

Giaconia G. C.
Greco G.
Mistretta L.
Rizzo R.
Merla A.
Chiarelli A. M.
Zappasodi F.
Edlinger G.

January 2019

Functional near-infrared spectroscopy (fNIRS) applied to brain monitoring has been gaining increasin...

The selected EEG-fNIRS channel locations of the International 10–20 system.

Abstract

Extracted data

The selected EEG-fNIRS channel locations of the International 10–20 system.

Abstract

Extracted data

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