Phase-locking and amplitude modulations of EEG alpha: Two measures reflect different cognitive processes in a working memory task.

Christoph S Herrmann; Daniel Senkowski; Stefan Röttger

Phase-locking and amplitude modulations of EEG alpha: Two measures reflect different cognitive processes in a working memory task.

Standard

Phase-locking and amplitude modulations of EEG alpha: Two measures reflect different cognitive processes in a working memory task. / Herrmann, Christoph S; Senkowski, Daniel; Röttger, Stefan.

in: EXP PSYCHOL, Jahrgang 51, Nr. 4, 4, 2004, S. 311-318.

Publikationen: SCORING: Beitrag in Fachzeitschrift/Zeitung › SCORING: Zeitschriftenaufsatz › Forschung › Begutachtung

Harvard

Herrmann, CS, Senkowski, D & Röttger, S 2004, 'Phase-locking and amplitude modulations of EEG alpha: Two measures reflect different cognitive processes in a working memory task.', EXP PSYCHOL, Jg. 51, Nr. 4, 4, S. 311-318. <http://www.ncbi.nlm.nih.gov/pubmed/15620232?dopt=Citation>

APA

Herrmann, C. S., Senkowski, D., & Röttger, S. (2004). Phase-locking and amplitude modulations of EEG alpha: Two measures reflect different cognitive processes in a working memory task. EXP PSYCHOL, 51(4), 311-318. [4]. http://www.ncbi.nlm.nih.gov/pubmed/15620232?dopt=Citation

Vancouver

Herrmann CS, Senkowski D, Röttger S. Phase-locking and amplitude modulations of EEG alpha: Two measures reflect different cognitive processes in a working memory task. EXP PSYCHOL. 2004;51(4):311-318. 4.

Bibtex

@article{cb5f13d7959c41c085288e0755c6aa37,

title = "Phase-locking and amplitude modulations of EEG alpha: Two measures reflect different cognitive processes in a working memory task.",

abstract = "It has been demonstrated in numerous experiments that oscillatory EEG responses in the alpha frequency band (8-12 Hz) increase with memory load during the retention interval in working memory tasks. However, the findings diverge with respect to which measurement of alpha activity is influenced by memory processes. Here, we differentiate between evoked and total alpha activity in order to separate effects of phase-locking and amplitude modulation. We present data from a delayed-matching-to-sample task (S1-S2 paradigm) for which we compared EEG alpha responses between a perception and a memory condition. Increased total alpha activity was found in the retention interval for the memory as compared to the perception condition. Evoked alpha activity, however, did not differentiate between memory and perception conditions but, instead, was increased for the more complex condition of processing non-Kanizsa figures as compared to Kanizsa figures. Thus, our results demonstrate a functional differentiation between evoked and total alpha activity. While alpha phase locking seemed to be influenced mainly by task complexity, alpha amplitude clearly reflected memory demands in our paradigm.",

author = "Herrmann, {Christoph S} and Daniel Senkowski and Stefan R{\"o}ttger",

year = "2004",

language = "Deutsch",

volume = "51",

pages = "311--318",

journal = "EXP PSYCHOL",

issn = "1618-3169",

publisher = "Hogrefe",

number = "4",

}

RIS

TY - JOUR

T1 - Phase-locking and amplitude modulations of EEG alpha: Two measures reflect different cognitive processes in a working memory task.

AU - Herrmann, Christoph S

AU - Senkowski, Daniel

AU - Röttger, Stefan

PY - 2004

Y1 - 2004

N2 - It has been demonstrated in numerous experiments that oscillatory EEG responses in the alpha frequency band (8-12 Hz) increase with memory load during the retention interval in working memory tasks. However, the findings diverge with respect to which measurement of alpha activity is influenced by memory processes. Here, we differentiate between evoked and total alpha activity in order to separate effects of phase-locking and amplitude modulation. We present data from a delayed-matching-to-sample task (S1-S2 paradigm) for which we compared EEG alpha responses between a perception and a memory condition. Increased total alpha activity was found in the retention interval for the memory as compared to the perception condition. Evoked alpha activity, however, did not differentiate between memory and perception conditions but, instead, was increased for the more complex condition of processing non-Kanizsa figures as compared to Kanizsa figures. Thus, our results demonstrate a functional differentiation between evoked and total alpha activity. While alpha phase locking seemed to be influenced mainly by task complexity, alpha amplitude clearly reflected memory demands in our paradigm.

AB - It has been demonstrated in numerous experiments that oscillatory EEG responses in the alpha frequency band (8-12 Hz) increase with memory load during the retention interval in working memory tasks. However, the findings diverge with respect to which measurement of alpha activity is influenced by memory processes. Here, we differentiate between evoked and total alpha activity in order to separate effects of phase-locking and amplitude modulation. We present data from a delayed-matching-to-sample task (S1-S2 paradigm) for which we compared EEG alpha responses between a perception and a memory condition. Increased total alpha activity was found in the retention interval for the memory as compared to the perception condition. Evoked alpha activity, however, did not differentiate between memory and perception conditions but, instead, was increased for the more complex condition of processing non-Kanizsa figures as compared to Kanizsa figures. Thus, our results demonstrate a functional differentiation between evoked and total alpha activity. While alpha phase locking seemed to be influenced mainly by task complexity, alpha amplitude clearly reflected memory demands in our paradigm.

M3 - SCORING: Zeitschriftenaufsatz

VL - 51

SP - 311

EP - 318

JO - EXP PSYCHOL

JF - EXP PSYCHOL

SN - 1618-3169

IS - 4

M1 - 4

ER -