Control mechanisms in working memory: a possible function of EEG theta oscillations.

Paul Sauseng; Birgit Griesmayr; Roman Freunberger; Wolfgang Klimesch

Control mechanisms in working memory: a possible function of EEG theta oscillations.

Standard

Control mechanisms in working memory: a possible function of EEG theta oscillations. / Sauseng, Paul; Griesmayr, Birgit; Freunberger, Roman; Klimesch, Wolfgang.

In: NEUROSCI BIOBEHAV R, 2009.

Research output: SCORING: Contribution to journal › SCORING: Journal article › Research › peer-review

Harvard

Sauseng, P, Griesmayr, B, Freunberger, R & Klimesch, W 2009, 'Control mechanisms in working memory: a possible function of EEG theta oscillations.', NEUROSCI BIOBEHAV R. <http://www.ncbi.nlm.nih.gov/pubmed/20006645?dopt=Citation>

APA

Sauseng, P., Griesmayr, B., Freunberger, R., & Klimesch, W. (2009). Control mechanisms in working memory: a possible function of EEG theta oscillations. NEUROSCI BIOBEHAV R. http://www.ncbi.nlm.nih.gov/pubmed/20006645?dopt=Citation

Vancouver

Sauseng P, Griesmayr B, Freunberger R, Klimesch W. Control mechanisms in working memory: a possible function of EEG theta oscillations. NEUROSCI BIOBEHAV R. 2009.

Bibtex

@article{c7648ae73d634350ab23d8506360bb71,

title = "Control mechanisms in working memory: a possible function of EEG theta oscillations.",

abstract = "Neural correlates of control mechanisms in human working memory are discussed at two levels in this review: (i) at 'item level', where in multi-item working memory information needs to be organized into sequential memory representations, and (ii) at a 'process level', indicating the integration and control of a variety of cognitive functions involved in working memory, independent of item representations per se. It will be discussed that at both levels electroencephalographic theta activity is responsible for control of working memory functions. On item level, exact phase coding, e.g., approached by coupling between theta and gamma oscillations or phase resetting of theta frequency, is suggested to integrate information into working memory representations. At process level interregional theta synchronization is discussed to integrate brain structures necessary for working memory. When discussing the specificity of theta activity for control of working memory processes it will be suggested that theta oscillations might play an important general integrative role in organization of brain activity. And as working memory often involves a variety of cognitive processes which need to be coordinated there is particular need for an integrative brain mechanism like theta activity as suggested in this review.",

author = "Paul Sauseng and Birgit Griesmayr and Roman Freunberger and Wolfgang Klimesch",

year = "2009",

language = "Deutsch",

journal = "NEUROSCI BIOBEHAV R",

issn = "0149-7634",

publisher = "Elsevier Limited",

}

RIS

TY - JOUR

T1 - Control mechanisms in working memory: a possible function of EEG theta oscillations.

AU - Sauseng, Paul

AU - Griesmayr, Birgit

AU - Freunberger, Roman

AU - Klimesch, Wolfgang

PY - 2009

Y1 - 2009

N2 - Neural correlates of control mechanisms in human working memory are discussed at two levels in this review: (i) at 'item level', where in multi-item working memory information needs to be organized into sequential memory representations, and (ii) at a 'process level', indicating the integration and control of a variety of cognitive functions involved in working memory, independent of item representations per se. It will be discussed that at both levels electroencephalographic theta activity is responsible for control of working memory functions. On item level, exact phase coding, e.g., approached by coupling between theta and gamma oscillations or phase resetting of theta frequency, is suggested to integrate information into working memory representations. At process level interregional theta synchronization is discussed to integrate brain structures necessary for working memory. When discussing the specificity of theta activity for control of working memory processes it will be suggested that theta oscillations might play an important general integrative role in organization of brain activity. And as working memory often involves a variety of cognitive processes which need to be coordinated there is particular need for an integrative brain mechanism like theta activity as suggested in this review.

AB - Neural correlates of control mechanisms in human working memory are discussed at two levels in this review: (i) at 'item level', where in multi-item working memory information needs to be organized into sequential memory representations, and (ii) at a 'process level', indicating the integration and control of a variety of cognitive functions involved in working memory, independent of item representations per se. It will be discussed that at both levels electroencephalographic theta activity is responsible for control of working memory functions. On item level, exact phase coding, e.g., approached by coupling between theta and gamma oscillations or phase resetting of theta frequency, is suggested to integrate information into working memory representations. At process level interregional theta synchronization is discussed to integrate brain structures necessary for working memory. When discussing the specificity of theta activity for control of working memory processes it will be suggested that theta oscillations might play an important general integrative role in organization of brain activity. And as working memory often involves a variety of cognitive processes which need to be coordinated there is particular need for an integrative brain mechanism like theta activity as suggested in this review.

M3 - SCORING: Zeitschriftenaufsatz

JO - NEUROSCI BIOBEHAV R

JF - NEUROSCI BIOBEHAV R

SN - 0149-7634

ER -