SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W4308239558> ?p ?o ?g. }

Showing items 1 to 100 of ±162 with 100 items per page.

W4308239558 endingPage "100061" @default.
W4308239558 startingPage "100061" @default.
W4308239558 abstract "The auditory steady-state response (ASSR) has been traditionally recorded with few electrodes and is often measured as the voltage difference between mastoid and vertex electrodes (vertical montage). As high-density EEG recording systems have gained popularity, multi-channel analysis methods have been developed to integrate the ASSR signal across channels. The phases of ASSR across electrodes can be affected by factors including the stimulus modulation rate and re-referencing strategy, which will in turn affect the estimated ASSR strength. To explore the relationship between the classical vertical-montage ASSR and whole-scalp ASSR, we applied these two techniques to the same data to estimate the strength of ASSRs evoked by tones with sinusoidal amplitude modulation rates of around 40, 100, and 200 Hz. The whole-scalp methods evaluated in our study, with either linked-mastoid or common-average reference, included ones that assume equal phase across all channels, as well as ones that allow for different phase relationships. The performance of simple averaging was compared to that of more complex methods involving principal component analysis. Overall, the root-mean-square of the phase locking values (PLVs) across all channels provided the most efficient method to detect ASSR across the range of modulation rates tested here." @default.
W4308239558 created "2022-11-09" @default.
W4308239558 creator A5012315678 @default.
W4308239558 creator A5032026109 @default.
W4308239558 creator A5067035394 @default.
W4308239558 date "2022-01-01" @default.
W4308239558 modified "2023-09-30" @default.
W4308239558 title "Methodological considerations when measuring and analyzing auditory steady-state responses with multi-channel EEG" @default.
W4308239558 cites W1543088917 @default.
W4308239558 cites W1955445721 @default.
W4308239558 cites W1964516784 @default.
W4308239558 cites W1970731219 @default.
W4308239558 cites W1975349023 @default.
W4308239558 cites W1976359337 @default.
W4308239558 cites W1984375071 @default.
W4308239558 cites W1985333700 @default.
W4308239558 cites W1991721700 @default.
W4308239558 cites W1997913619 @default.
W4308239558 cites W1997941792 @default.
W4308239558 cites W2004527684 @default.
W4308239558 cites W2012059114 @default.
W4308239558 cites W2012966115 @default.
W4308239558 cites W2014535119 @default.
W4308239558 cites W2016785002 @default.
W4308239558 cites W2018805090 @default.
W4308239558 cites W2023021999 @default.
W4308239558 cites W2027321916 @default.
W4308239558 cites W2030980369 @default.
W4308239558 cites W2031049864 @default.
W4308239558 cites W2034776325 @default.
W4308239558 cites W2037802787 @default.
W4308239558 cites W2037918173 @default.
W4308239558 cites W2043184137 @default.
W4308239558 cites W2046371812 @default.
W4308239558 cites W2051642304 @default.
W4308239558 cites W2052007540 @default.
W4308239558 cites W2053926940 @default.
W4308239558 cites W2054948322 @default.
W4308239558 cites W2059070069 @default.
W4308239558 cites W2063324443 @default.
W4308239558 cites W2070390087 @default.
W4308239558 cites W2080787274 @default.
W4308239558 cites W2082194450 @default.
W4308239558 cites W2089468765 @default.
W4308239558 cites W2098362832 @default.
W4308239558 cites W2099193444 @default.
W4308239558 cites W2109389996 @default.
W4308239558 cites W2112102950 @default.
W4308239558 cites W2120998220 @default.
W4308239558 cites W2128495200 @default.
W4308239558 cites W2130304234 @default.
W4308239558 cites W2140144177 @default.
W4308239558 cites W2148856221 @default.
W4308239558 cites W2151835857 @default.
W4308239558 cites W2160104506 @default.
W4308239558 cites W2167537691 @default.
W4308239558 cites W2169756567 @default.
W4308239558 cites W2169918686 @default.
W4308239558 cites W2172846474 @default.
W4308239558 cites W2254509181 @default.
W4308239558 cites W2291944472 @default.
W4308239558 cites W2309543541 @default.
W4308239558 cites W2315043753 @default.
W4308239558 cites W2323586417 @default.
W4308239558 cites W2400654835 @default.
W4308239558 cites W2556508994 @default.
W4308239558 cites W2560640122 @default.
W4308239558 cites W2577157934 @default.
W4308239558 cites W2577451197 @default.
W4308239558 cites W2581612472 @default.
W4308239558 cites W2596694168 @default.
W4308239558 cites W2761410072 @default.
W4308239558 cites W2763462944 @default.
W4308239558 cites W2791392031 @default.
W4308239558 cites W2795174957 @default.
W4308239558 cites W2800996273 @default.
W4308239558 cites W2893371270 @default.
W4308239558 cites W2906743803 @default.
W4308239558 cites W2912613946 @default.
W4308239558 cites W2953927108 @default.
W4308239558 cites W2966942628 @default.
W4308239558 cites W2972958127 @default.
W4308239558 cites W2982822984 @default.
W4308239558 cites W3033137989 @default.
W4308239558 cites W3081494382 @default.
W4308239558 cites W3132668373 @default.
W4308239558 cites W3181425074 @default.
W4308239558 cites W4225728478 @default.
W4308239558 cites W870598784 @default.
W4308239558 doi "https://doi.org/10.1016/j.crneur.2022.100061" @default.
W4308239558 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/36386860" @default.
W4308239558 hasPublicationYear "2022" @default.
W4308239558 type Work @default.
W4308239558 citedByCount "1" @default.
W4308239558 countsByYear W43082395582023 @default.
W4308239558 crossrefType "journal-article" @default.
W4308239558 hasAuthorship W4308239558A5012315678 @default.
W4308239558 hasAuthorship W4308239558A5032026109 @default.