Adaptive modeling of the unattended acoustic environment reflected in the mismatch negativity event-related potential

[1]  W. James,et al.  The Principles of Psychology. , 1983 .

[2]  R. Näätänen,et al.  Early selective-attention effect on evoked potential reinterpreted. , 1978, Acta psychologica.

[3]  R. Näätänen,et al.  Brain potential correlates of voluntary and involuntary attention. , 1980, Progress in brain research.

[4]  S A Hillyard,et al.  Event-related potentials (ERPs) to interruptions of a steady rhythm. , 1981, Psychophysiology.

[5]  R. Näätänen Processing negativity: an evoked-potential reflection of selective attention. , 1982, Psychological bulletin.

[6]  R. Ilmoniemi,et al.  Responses of the primary auditory cortex to pitch changes in a sequence of tone pips: Neuromagnetic recordings in man , 1984, Neuroscience Letters.

[7]  R. Näätänen,et al.  Short-term habituation and dishabituation of the mismatch negativity of the ERP. , 1984, Psychophysiology.

[8]  N. Cowan On short and long auditory stores. , 1984, Psychological bulletin.

[9]  R. Näätänen,et al.  Auditory frequency discrimination and event-related potentials. , 1985, Electroencephalography and clinical neurophysiology.

[10]  A Pfefferbaum,et al.  Event-related potentials to breaks in sequences of alternating pitches or interstimulus intervals. , 1988, Psychophysiology.

[11]  R. Näätänen Implications of ERP data for psychological theories of attention , 1988, Biological Psychology.

[12]  E. Donchin,et al.  Is the P300 component a manifestation of context updating? , 1988, Behavioral and Brain Sciences.

[13]  A Pfefferbaum,et al.  Event-related potentials to time-deviant and pitch-deviant tones. , 1988, Psychophysiology.

[14]  R. Hari,et al.  Multi-SQUID recordings of human cerebral magnetic fields may give information about memory processes , 1989 .

[15]  M. Hämäläinen,et al.  Neuromagnetic responses of human auditory cortex to interruptions in a steady rhythm , 1989, Neuroscience Letters.

[16]  K. Reinikainen,et al.  Do event-related potentials reveal the mechanism of the auditory sensory memory in the human brain? , 1989, Neuroscience Letters.

[17]  M. Scherg,et al.  A Source Analysis of the Late Human Auditory Evoked Potentials , 1989, Journal of Cognitive Neuroscience.

[18]  R. Näätänen The role of attention in auditory information processing as revealed by event-related potentials and other brain measures of cognitive function , 1990, Behavioral and Brain Sciences.

[19]  F. Perrin,et al.  Brain generators implicated in the processing of auditory stimulus deviance: a topographic event-related potential study. , 1990, Psychophysiology.

[20]  Risto Näätänen,et al.  Mismatch and processing negativities in auditory stimulus processing and selection , 1991, Behavioral and Brain Sciences.

[21]  R Näätänen,et al.  Can echoic memory store two traces simultaneously? A study of event-related brain potentials. , 1992, Psychophysiology.

[22]  M. Tervaniemi,et al.  Representation of abstract attributes of auditory stimuli in the human brain. , 1992, Neuroreport.

[23]  R. Näätänen Attention and brain function , 1992 .

[24]  R Näätänen,et al.  Event-related potentials reveal a memory trace for temporal features. , 1993, Neuroreport.

[25]  Mikko Sams,et al.  Absolute Pitch and Event-Related Brain Potentials , 1993 .

[26]  I. Winkler,et al.  Memory prerequisites of mismatch negativity in the auditory event-related potential (ERP). , 1993, Journal of experimental psychology. Learning, memory, and cognition.

[27]  M. Tervaniemi,et al.  Development of a memory trace for a complex sound in the human brain. , 1993, Neuroreport.

[28]  L. McEvoy,et al.  Determinants of the auditory mismatch response. , 1993, Electroencephalography and clinical neurophysiology.

[29]  I. Winkler,et al.  Event-related brain potentials reflect traces of echoic memory in humans , 1993, Perception & psychophysics.

[30]  R. Hari,et al.  The Human Auditory Sensory Memory Trace Persists about 10 sec: Neuromagnetic Evidence , 1993, Journal of Cognitive Neuroscience.

[31]  E. Schröger,et al.  An event-related potential study of sensory representations of unfamiliar tonal patterns. , 1994, Psychophysiology.

[32]  R. Näätänen,et al.  Mismatch negativity to changes in a continuous tone with regularly varying frequencies. , 1994, Electroencephalography and clinical neurophysiology.

[33]  M. Tervaniemi,et al.  Neural representations of abstract stimulus features in the human brain as reflected by the mismatch negativity. , 1994, Neuroreport.

[34]  R. Näätänen,et al.  Temporal integration of auditory information in sensory memory as reflected by the mismatch negativity , 1994, Biological Psychology.

[35]  C Alain,et al.  Brain indices of automatic pattern processing , 1994, Neuroreport.

[36]  R. Näätänen The Mismatch Negativity: A Powerful Tool for Cognitive Neuroscience , 1995, Ear and hearing.

[37]  E. Halgren,et al.  Intracerebral potentials to rare target and distractor auditory and visual stimuli. III. Frontal cortex. , 1995, Electroencephalography and clinical neurophysiology.

[38]  W. Ritter,et al.  The Nature of Preattentive Storage in the Auditory System , 1995, Journal of Cognitive Neuroscience.

[39]  Risto Näätänen,et al.  Mismatch negativity to changes in abstract sound features during dichotic listening , 1995 .

[40]  E. Halgren,et al.  Intracerebral potentials to rare target and distractor auditory and visual stimuli. I. Superior temporal plane and parietal lobe. , 1995, Electroencephalography and clinical neurophysiology.

[41]  I. Winkler,et al.  Neural representation for the temporal structure of sound patterns. , 1995, Neuroreport.

[42]  M Molnár,et al.  Correlation dimension changes accompanying the occurrence of the mismatch negativity and the P3 event-related potential component. , 1995, Electroencephalography and clinical neurophysiology.

[43]  D. Javitt,et al.  The Mismatch Negativity of Event‐Related Potentials as a Probe of Transient Auditory Memory: A Review , 1995, Ear and hearing.

[44]  M. Tervaniemi,et al.  Preattentive periodicity detection in auditory patterns as governed by time and intensity information. , 1996, Brain research. Cognitive brain research.

[45]  E. Schröger,et al.  A neural mechanism for involuntary attention shifts to changes in auditory stimulation. , 1996, Journal of cognitive neuroscience.

[46]  N. Cowan,et al.  Interactions between Transient and Long-Term Auditory Memory as Reflected by the Mismatch Negativity , 1996, Journal of Cognitive Neuroscience.

[47]  I Czigler,et al.  Preattentive auditory change detection relies on unitary sensory memory representations. , 1996, Neuroreport.

[48]  W. Ritter,et al.  Storage of information in transient auditory memory. , 1996, Brain research. Cognitive brain research.