about
Cortical Signal Analysis and Advances in Functional Near-Infrared Spectroscopy Signal: A ReviewfNIRS-based brain-computer interfaces: a reviewOnline binary decision decoding using functional near-infrared spectroscopy for the development of brain–computer interfaceLateralization of music processing with noises in the auditory cortex: an fNIRS studyDecoding of four movement directions using hybrid NIRS-EEG brain-computer interfaceState-space models of impulse hemodynamic responses over motor, somatosensory, and visual cortices.fNIRS exhibits weak tuning to hand movement directionDecoding the processing of lying using functional connectivity MRISingle-trial lie detection using a combined fNIRS-polygraph system.Optimal hemodynamic response model for functional near-infrared spectroscopy.Passive BCI based on drowsiness detection: an fNIRS studyBundled-Optode Method in Functional Near-Infrared SpectroscopyBeing asked to tell an unpleasant truth about another person activates anterior insula and medial prefrontal cortex.Robust synchronization of delayed chaotic FitzHugh-Nagumo neurons under external electrical stimulation.Determining Optimal Feature-Combination for LDA Classification of Functional Near-Infrared Spectroscopy Signals in Brain-Computer Interface ApplicationBundled-optode implementation for 3D imaging in functional near-infrared spectroscopy.Analysis of Different Classification Techniques for Two-Class Functional Near-Infrared Spectroscopy-Based Brain-Computer Interface.A Non-parametric Approach to the Overall Estimate of Cognitive Load Using NIRS Time Series.Hybrid EEG-fNIRS-Based Eight-Command Decoding for BCI: Application to Quadcopter ControlHybrid Brain-Computer Interface Techniques for Improved Classification Accuracy and Increased Number of Commands: A ReviewEnhancing Classification Performance of Functional Near-Infrared Spectroscopy- Brain-Computer Interface Using Adaptive Estimation of General Linear Model Coefficients.Functional neural networks of honesty and dishonesty in children: Evidence from graph theory analysis.Using functional near-infrared spectroscopy (fNIRS) to detect the prefrontal cortical responses to deception under different motivations.Different Brain Responses to Pain and Its Expectation in the Dental Chair.fNIRS-based Neurorobotic Interface for gait rehabilitation.Reduction of Delay in Detecting Initial Dips from Functional Near-Infrared Spectroscopy Signals Using Vector-Based Phase Analysis.Note: three wavelengths near-infrared spectroscopy system for compensating the light absorbance by water.Noise reduction in functional near-infrared spectroscopy signals by independent component analysis.In silico vs. Over the Clouds: On-the-Fly Mental State Estimation of Aircraft Pilots, Using a Functional Near Infrared Spectroscopy Based Passive-BCI.Lie Detection Using fNIRS Monitoring of Inhibition-Related Brain Regions Discriminates Infrequent but not Frequent Liars.
P2860
Q26745378-39261AEA-215C-431E-B653-11CF041CA9BFQ28081503-C45DB8ED-6C44-4EDD-9267-944ACA898373Q29030905-A347E9A7-CE59-46A2-BB26-8F32E24346DEQ30370113-1378E358-AD6B-49FA-A92E-96A653BF7301Q33563749-31BF9040-7C49-4BFE-AAF6-74F1CE007DA0Q33738567-A9B9D4DC-4A18-46DC-A77F-492B0DF14067Q34474328-8F8D9365-3C2F-447A-89ED-C29A1F0E5F14Q35048117-0FB178F7-DA0A-4B2C-9E5A-B2CDA77CBE30Q35671590-2279B53B-280D-4762-8ED6-21A71D885D7CQ35745833-64C1F122-F2B5-4486-8ACB-6A6F940B52F3Q36159895-EFCAC0CC-EC18-4432-BF21-7C645CEF2BF1Q36176172-72DBB250-D1A3-4C4D-B4B2-B70F4C25C7C9Q36177790-FAF9ED6A-C685-4BD0-BDBF-C7756312AA87Q36413529-4DC23323-A6F9-4FE8-9AE2-20D53E02564EQ36932763-07ED6B8D-4B35-4BF4-B2B2-3B8AD03F74DAQ37270147-D9226534-CEBD-4DAB-9AE8-A603CE208A74Q37306866-94318320-0B15-4F9A-A5F4-A1B6F86E82ECQ37622477-0AF7E44A-A4CC-4CC2-A650-BB8A7DA9DD53Q37649547-6208A5D0-BD9E-43C4-99EA-D1D109E900FFQ38645181-90A547B5-16AC-4DC7-B00C-62AB3CCB9E8DQ41025322-ECEABAFE-439A-40B1-8B9A-800E0C9997B3Q41952498-89150D7C-C48E-4660-B9B4-11A587CBFA48Q42177153-40B02CC2-3CE8-4723-94FD-223CD0925186Q47711092-477BBC77-D484-41F2-B430-0A93846E9B40Q48103687-132BDC21-AA95-4117-B1AF-C2CC3F994262Q48836404-AF282F51-7561-4FA0-8428-1789E08F46D0Q48882950-E130A711-239F-48B7-9EAF-29C8B3548685Q51180453-3DE1245F-097D-4E39-9D87-66427E15E430Q54964660-9E9F4E67-E539-40BE-A431-7757C5CFA15FQ54987853-19884697-D98B-4395-A932-E89768509EE9
P2860
description
2012 nî lūn-bûn
@nan
2012年の論文
@ja
2012年学术文章
@wuu
2012年学术文章
@zh
2012年学术文章
@zh-cn
2012年学术文章
@zh-hans
2012年学术文章
@zh-my
2012年学术文章
@zh-sg
2012年學術文章
@yue
2012年學術文章
@zh-hant
name
fNIRS-based online deception decoding.
@en
fNIRS-based online deception decoding.
@nl
type
label
fNIRS-based online deception decoding.
@en
fNIRS-based online deception decoding.
@nl
prefLabel
fNIRS-based online deception decoding.
@en
fNIRS-based online deception decoding.
@nl
P356
P1476
fNIRS-based online deception decoding.
@en
P2093
Xiao-Su Hu
P304
P356
10.1088/1741-2560/9/2/026012
P577
2012-02-16T00:00:00Z