Abstract is: Erich Schröger (born 11 November 1958, in Munich) is a German psychologist and neuroscientist.
human | Q5 |
P2381 | Academic Tree ID | 9139 |
P5463 | AE member ID | Schröger_Erich |
P268 | Bibliothèque nationale de France ID | 15025271j |
P2456 | DBLP author ID | 93/7223 |
P646 | Freebase ID | /m/03grj7x |
P227 | GND ID | 112884326 |
P269 | IdRef ID | 094832277 |
P213 | ISNI | 0000000031041789 |
P244 | Library of Congress authority ID | n94050935 |
P2798 | Loop ID | 925 |
P1006 | Nationale Thesaurus voor Auteursnamen ID | 288848632 |
P856 | official website | http://www.uni-leipzig.de/~biocog/schroger/ |
P496 | ORCID iD | 0000-0002-8321-6629 |
P3368 | Prabook ID | 452114 |
P3829 | Publons author ID | 1207491 |
P1053 | ResearcherID | C-3079-2009 |
P1153 | Scopus author ID | 7005187198 |
P214 | VIAF ID | 37197467 |
P10832 | WorldCat Entities ID | E39PBJvd7BbKRTHBf9DgqtHgrq |
P27 | country of citizenship | Germany | Q183 |
P69 | educated at | Munich School of Philosophy | Q881849 |
P108 | employer | Ludwig Maximilian University of Munich | Q55044 |
Leipzig University | Q154804 | ||
P734 | family name | Schröger | Q56540630 |
Schröger | Q56540630 | ||
Schröger | Q56540630 | ||
P101 | field of work | cognitive neuroscience | Q1138951 |
P735 | given name | Erich | Q15277196 |
Erich | Q15277196 | ||
P1412 | languages spoken, written or signed | German | Q188 |
P463 | member of | Academia Europaea | Q337234 |
P1559 | name in native language | Erich Schröger | |
P106 | occupation | psychologist | Q212980 |
university teacher | Q1622272 | ||
neuroscientist | Q6337803 | ||
P21 | sex or gender | male | Q6581097 |
P937 | work location | Leipzig | Q2079 |
Q49045179 | A comparison of auditory and visual distraction effects: behavioral and event-related indices. |
Q48864899 | A neural mechanism for involuntary attention shifts to changes in auditory stimulation. |
Q48264313 | A temporal constraint for automatic deviance detection and object formation: A mismatch negativity study |
Q48458576 | Acoustic detail guides attention allocation in a selective listening task. |
Q49045055 | Activation of the auditory pre-attentive change detection system by tone repetitions with fast stimulation rate. |
Q43843567 | Age dependent changes of distractibility and reorienting of attention revisited: an event-related potential study |
Q50956431 | Age-related changes in the use of regular patterns for auditory scene analysis. |
Q52070437 | Alternative perceptual states 'apparent motion' and 'perceived simultaneity' lead to differences of induced EEG rhythms. |
Q30474495 | An Asymmetry in the Automatic Detection of the Presence or Absence of a Frequency Modulation within a Tone: A Mismatch Negativity Study |
Q38568887 | An event-related potential study of sensory representations of unfamiliar tonal patterns |
Q58808059 | Asymmetries in the time course of distraction elicited by changes in the auditory and visual modalities |
Q26866119 | Attention and prediction in human audition: a lesson from cognitive psychophysiology |
Q39247788 | Attention effects on auditory scene analysis: insights from event-related brain potentials |
Q58808060 | Attentional focus and behavioral relevance affect auditory memory representation of sequentially presented sounds |
Q47328845 | Attentional gain is modulated by probabilistic feature expectations in a spatial cueing task: ERP evidence. |
Q50776741 | Attentional resources and pop-out detection in search displays. |
Q50495614 | Attentive and pre-attentive periodicity analysis in auditory memory: an event-related brain potential study. |
Q48687029 | Attenuated human auditory middle latency response and evoked 40-Hz response to self-initiated sounds. |
Q48156788 | Audio-visual synchrony and spatial attention enhance processing of dynamic visual stimulation independently and in parallel: A frequency-tagging study |
Q112581396 | Auditory Pattern Representations Under Conditions of Uncertainty-An ERP Study |
Q91217384 | Auditory Predictions and Prediction Errors in Response to Self-Initiated Vowels |
Q48244804 | Auditory distraction by duration and location deviants: a behavioral and event-related potential study |
Q58808188 | Auditory distraction elicited by sound change |
Q58808115 | Auditory distraction with different presentation rates: an event-related potential and behavioral study |
Q58808142 | Auditory distraction: event-related potential and behavioral indices |
Q48473665 | Auditory event-related potentials reflect dedicated change detection activity for higher-order acoustic transitions. |
Q52151925 | Auditory perceptual objects as generative models: Setting the stage for communication by sound. |
Q58808099 | Auditory streaming affects the processing of successive deviant and standard sounds |
Q51898529 | Automatic detection of lexical change: an auditory event-related potential study. |
Q48888080 | Automaticity and attention: investigating automatic processing in texture segmentation with event-related brain potentials. |
Q38550520 | Behavioral and electrophysiological effects of task-irrelevant sound change: a new distraction paradigm |
Q57882004 | Behavioral and evoked potential measures of distraction in 5-year-old children born preterm |
Q58808054 | Bericht des Fachkollegiums Psychologie der Deutschen Forschungsgemeinschaft (DFG) und der DFG-Geschäftsstelle Psychologie |
Q90305748 | Beta power encodes contextual estimates of temporal event probability in the human brain |
Q48288889 | Binding symbols and sounds: evidence from event-related oscillatory gamma-band activity |
Q58808105 | Binocular rivalry is partly resolved at early processing stages with steady and with flickering presentation: a human event-related brain potential study |
Q43769975 | Bottom-up influences on working memory: behavioral and electrophysiological distraction varies with distractor strength |
Q48300667 | Brain activity from stimuli that are not perceived: Visual mismatch negativity during binocular rivalry suppression |
Q48714688 | Brain activity index of distractibility in normal school-age children. |
Q48391235 | Bridging prediction and attention in current research on perception and action. |
Q44721433 | Cerebellar contribution to the prediction of self-initiated sounds |
Q112298279 | Change detection of auditory tonal patterns defined by absolute versus relative pitch information. A combined behavioural and EEG study |
Q60043633 | Children Processing Music: Electric Brain Responses Reveal Musical Competence and Gender Differences |
Q30333451 | Children processing music: electric brain responses reveal musical competence and gender differences. |
Q40212426 | Cognitive control of involuntary attention and distraction in children and adolescents |
Q55606321 | Correction: The Human Brain Maintains Contradictory and Redundant Auditory Sensory Predictions. |
Q39549384 | Cross-modal distractors modulate oscillatory alpha power: the neural basis of impaired task performance. |
Q58808042 | Das Leipziger Projekt zur Erschließung und Digitalisierung des Nachlasses von Wilhelm Maximilian Wundt |
Q50994530 | Deviance-repetition effects as a function of stimulus feature, feature value variation, and timing: a mismatch negativity study. |
Q48946064 | Diagnostic subgroups of developmental dyslexia have different deficits in neural processing of tones and phonemes. |
Q58808124 | Die Bedeutung sensorischer Verarbeitung und Aufmerksamkeitssteuerung für Arbeitsgedächtnisfunktionen |
Q46728280 | Differences in evoked potentials during the active processing of sound location and motion |
Q48355818 | Differences in processing violations of sequential and feature regularities as revealed by visual event-related brain potentials. |
Q33253969 | Different interference effects in musicians and a control group |
Q58808126 | Differential Contribution of Frontal and Temporal Cortices to Auditory Change Detection: fMRI and ERP Results |
Q58808107 | Differential processing of duration changes within short and long sounds in humans |
Q44923759 | Differential processing of terminal tone parts within structured and non-structured tones |
Q30328272 | Differentiating ERAN and MMN: an ERP study. |
Q35226064 | Digital filter design for electrophysiological data--a practical approach |
Q43455832 | Discrimination of personally significant from nonsignificant sounds: a training study |
Q58808072 | Disentangling effects of auditory distraction and of stimulus-response sequence |
Q50986374 | Distraction and facilitation--two faces of the same coin? |
Q49200905 | Distraction and reorientation in children: a behavioral and ERP study. |
Q30367396 | Distraction by Novel and Pitch-Deviant Sounds in Children. |
Q47687888 | Distraction by emotional sounds: Disentangling arousal benefits and orienting costs. |
Q58808109 | Distraction effects in vision: behavioral and event-related potential indices |
Q48609515 | Distraction in a visual multi-deviant paradigm: behavioral and event-related potential effects. |
Q52187580 | ERP effects of intermodal attention and cross-modal links in spatial attention. |
Q46410809 | Early correlates of visual awareness following orientation and colour rivalry |
Q46591993 | Early correlates of visual awareness in the human brain: Time and place from event-related brain potentials |
Q37922240 | Early electrophysiological indicators for predictive processing in audition: a review. |
Q45339714 | Early visual and auditory processing rely on modality-specific attentional resources |
Q57602896 | Editorial |
Q48234393 | Effects of consciousness on human brain waves following binocular rivalry |
Q30371002 | Effects of explicit knowledge and predictability on auditory distraction and target performance. |
Q43496223 | Effects of intermodal attention on the auditory steady-state response and the event-related potential |
Q38561792 | Effects of lateralized cues on the processing of lateralized auditory stimuli |
Q46109608 | Effects of spectral complexity and sound duration on automatic complex-sound pitch processing in humans - a mismatch negativity study |
Q30454150 | Electrophysiological evidence for age effects on sensory memory processing of tonal patterns |
Q48287758 | Electrophysiological indices of acute effects of ethanol on involuntary attention shifting |
Q30371331 | Emotion and goal-directed behavior: ERP evidence on cognitive and emotional conflict. |
Q58808038 | Emotion lies in the eye of the listener: emotional arousal to novel sounds is reflected in the sympathetic contribution to the pupil dilation response and the P3 |
Q47834331 | Emotion lies in the eye of the listener: emotional arousal to novel sounds is reflected in the sympathetic contribution to the pupil dilation response and the P3. |
Q41107246 | Event-related potentials reveal how non-attended complex sound patterns are represented by the human brain |
Q38567736 | Event-related potentials to auditory stimuli following transient shifts of spatial attention in a Go/Nogo task |
Q48905482 | Evidence for the auditory P3a reflecting an automatic process: elicitation during highly-focused continuous visual attention. |
Q48690062 | Facilitation of visual search at new positions: a behavioral and ERP study of new object capture. |
Q38382668 | Familiarity affects environmental sound processing outside the focus of attention: an event-related potential study |
Q48707619 | Familiarity affects the processing of task-irrelevant auditory deviance. |
Q50962408 | Familiarity of environmental sounds is used to establish auditory rules. |
Q58808154 | Fast preattentive processing of location: a functional basis for selective listening in humans |
Q34334080 | Filter effects and filter artifacts in the analysis of electrophysiological data |
Q58808051 | Finding the right control: The mismatch negativity under investigation |
Q46688088 | Foreground-background discrimination indicated by event-related brain potentials in a new auditory multistability paradigm |
Q30356426 | From air oscillations to music and speech: functional magnetic resonance imaging evidence for fine-tuned neural networks in audition. |
Q57648602 | From symbols to sounds: Visual symbolic information activates sound representations |
Q45077034 | Hearing silences: human auditory processing relies on preactivation of sound-specific brain activity patterns |
Q48584604 | Hemispheric specialization during discrimination of sound sources reflected by MMN. |
Q48693981 | High-pass filters and baseline correction in M/EEG analysis-continued discussion. |
Q40101099 | High-pass filters and baseline correction in M/EEG analysis. Commentary on: "How inappropriate high-pass filters can produce artefacts and incorrect conclusions in ERP studies of language and cognition". |
Q30356504 | How regularity representations of short sound patterns that are based on relative or absolute pitch information establish over time: An EEG study |
Q48855444 | Human auditory event-related potentials predict duration judgments. |
Q48121672 | Human brain potential signs of selection by location and frequency in an auditory transient attention situation |
Q48507032 | Human event-related brain potentials to auditory periodic noise stimuli. |
Q48766811 | Human pre-attentive auditory change-detection with single, double, and triple deviations as revealed by mismatch negativity additivity. |
Q48533899 | Human visual system automatically encodes sequential regularities of discrete events. |
Q48357881 | Human visual system automatically represents large-scale sequential regularities. |
Q39966237 | I heard that coming: event-related potential evidence for stimulus-driven prediction in the auditory system. |
Q30451419 | I know what is missing here: electrophysiological prediction error signals elicited by omissions of predicted "what" but not "when". |
Q48432643 | Impact of lower- vs. upper-hemifield presentation on automatic colour-deviance detection: a visual mismatch negativity study. |
Q58808039 | Implicit expectations influence target detection in children and adults |
Q43718014 | Increased distractibility by task-irrelevant sound changes in abstinent alcoholics |
Q51934489 | Input to verbal working memory: Preattentive construction of the central speech representation. |
Q52047348 | Interaural time and level differences: integrated or separated processing? |
Q48282443 | Interrelation of attention and prediction in visual processing: Effects of task-relevance and stimulus probability |
Q48647633 | Introductory notes on "Predictive information processing in the brain: principles, neural mechanisms, and models". |
Q48309122 | Involuntary attentional capture by speech and non-speech deviations: a combined behavioral-event-related potential study. |
Q48184856 | Is my mobile ringing? Evidence for rapid processing of a personally significant sound in humans. |
Q48813112 | Is there pre-attentive memory-based comparison of pitch? |
Q45848773 | Localizing pre-attentive auditory memory-based comparison: magnetic mismatch negativity to pitch change |
Q33695087 | Localizing sensory and cognitive systems for pre-attentive visual deviance detection: an sLORETA analysis of the data of Kimura et al. (2009). |
Q57653261 | MMN or no MMN: No magnitude of deviance effect on the MMN amplitude |
Q42253393 | Mapping symbols to sounds: electrophysiological correlates of the impaired reading process in dyslexia |
Q49092445 | Maturation of obligatory auditory responses and their neural sources: evidence from EEG and MEG. |
Q48282384 | Measuring duration mismatch negativity |
Q48559279 | Mechanisms for detecting auditory temporal and spectral deviations operate over similar time windows but are divided differently between the two hemispheres. |
Q46441735 | Memory trace formation for abstract auditory features and its consequences in different attentional contexts |
Q43799605 | Microsaccadic responses indicate fast categorization of sounds: a novel approach to study auditory cognition. |
Q58808089 | Mismatch Negativity |
Q48309883 | Mismatch negativity on the cone of confusion |
Q48170963 | Mismatch negativity to changes in a continuous tone with regularly varying frequencies |
Q48292776 | Mismatch negativity to pitch change: varied stimulus proportions in controlling effects of neural refractoriness on human auditory event-related brain potentials |
Q57072868 | Modulation of Cognitive and Emotional Control in Age-Related Mild-to-Moderate Hearing Loss |
Q48358226 | Modulation of involuntary attention by the duration of novel and pitch deviant sounds in children and adolescents. |
Q56522603 | Modulation of the mismatch negativity (MMN) to vowel duration changes in native speakers of Finnish and German as a result of language experience |
Q47813267 | Motor intention determines sensory attenuation of brain responses to self-initiated sounds |
Q91323633 | Moving towards dynamics: Emotional modulation of cognitive and emotional control |
Q30331633 | Music matters: preattentive musicality of the human brain. |
Q121064660 | Neural entrainment via perceptual inferences |
Q42957597 | Neural mechanisms of intermodal sustained selective attention with concurrently presented auditory and visual stimuli |
Q48104962 | Neural networks engaged in short-term memory rehearsal are disrupted by irrelevant speech in human subjects |
Q58808191 | Neural representation for the temporal structure of sound patterns |
Q36914622 | Object-related regularities are processed automatically: evidence from the visual mismatch negativity. |
Q48238808 | Omission mismatch negativity builds up late |
Q52043025 | On the detection of auditory deviations: a pre-attentive activation model. |
Q38566245 | On the development of auditory distraction: A review. |
Q31028657 | On the role of attention in binocular rivalry: electrophysiological evidence |
Q58808081 | Optimizing the auditory distraction paradigm: Behavioral and event-related potential effects in a lateralized multi-deviant approach |
Q114897073 | Perceptual Learning and Recognition of Random Acoustic Patterns |
Q48310137 | Perceptual and cognitive task difficulty has differential effects on auditory distraction |
Q47362647 | Perceptual integration of faces and voices depends on the interaction of emotional content and spatial frequency |
Q30362922 | Personal significance is encoded automatically by the human brain: an event-related potential study with ringtones. |
Q30541171 | Pitch discrimination accuracy in musicians vs nonmusicians: an event-related potential and behavioral study |
Q30356974 | Positive emotion impedes emotional but not cognitive conflict processing |
Q44880896 | Pre-attentive and attentive processing of temporal and frequency characteristics within long sounds |
Q38424587 | Pre-attentive auditory processing of lexicality |
Q51999050 | Pre-attentive categorization of vowel formant structure in complex tones. |
Q44019716 | Pre-attentive perception of vowel phonemes from variable speech stimuli |
Q38557589 | Pre-attentive processing of spectrally complex sounds with asynchronous onsets: an event-related potential study with human subjects |
Q48169143 | Preattentive memory-based comparison of sound intensity |
Q71710996 | Preattentive periodicity detection in auditory patterns as governed by time and intensity information |
Q51995941 | Preattentive processing of auditory spatial information in humans. |
Q43681909 | Prediction errors in self- and externally-generated deviants |
Q58808063 | Prediction-based auditory responses to omissions of self-generated sounds |
Q38165812 | Predictive regularity representations in violation detection and auditory stream segregation: from conceptual to computational models |
Q45216546 | Prefrontal cortex involvement in preattentive auditory deviance detection: neuroimaging and electrophysiological evidence |
Q92624740 | Presentation Probability of Visual-Auditory Pairs Modulates Visually Induced Auditory Predictions |
Q52052386 | Presentation rate and magnitude of stimulus deviance effects on human pre-attentive change detection. |
Q30475846 | Preventing distraction: assessing stimulus-specific and general effects of the predictive cueing of deviant auditory events |
Q51963738 | Primary motor area contribution to attentional reorienting after distraction. |
Q58808182 | Probability Distributions of Minkowski Distances between Discrete Random Variables |
Q58808138 | Processing Spatial and Temporal Discontinuities: Electrophysiological Indicators |
Q30480299 | Processing of abstract rule violations in audition |
Q38571759 | Processing of auditory deviants with changes in one versus two stimulus dimensions |
Q30448083 | Processing of complex distracting sounds in school-aged children and adults: evidence from EEG and MEG data |
Q58808056 | Processing of novel identifiability and duration in children and adults |
Q30336695 | Processing tonal modulations: an ERP study. |
Q58808083 | Rapid extraction of auditory feature contingencies |
Q51964339 | Regularity extraction and application in dynamic auditory stimulus sequences. |
Q30467014 | Regularity extraction from non-adjacent sounds |
Q30453407 | Resolution of lateral acoustic space assessed by electroencephalography and psychoacoustics. |
Q58808065 | Resolving inconsistencies between different cases for predictive modelling in audition |
Q58808158 | Response from Schröger |
Q49030264 | Response repetition vs. response change modulates behavioral and electrophysiological effects of distraction. |
Q48641131 | Segregating early physical and syntactic processes in auditory sentence comprehension. |
Q47807027 | Selective attention modulates early human evoked potentials during emotional face-voice processing |
Q57653243 | Selective suppression of self-initiated sounds in an auditory stream: An ERP study |
Q48536132 | Selective tuning of cortical sound-feature processing by language experience. |
Q30560295 | Sensation of agency and perception of temporal order |
Q44668997 | Sensorial suppression of self-generated sounds and its dependence on attention |
Q45240097 | Sensory and cognitive mechanisms for preattentive change detection in auditory cortex |
Q58808049 | Sensory suppression effects to self-initiated sounds reflect the attenuation of the unspecific N1 component of the auditory ERP |
Q30571006 | Sensory suppression of brain responses to self-generated sounds is observed with and without the perception of agency |
Q30423618 | Separate and concurrent symbolic predictions of sound features are processed differently |
Q48209664 | Spatial auditory regularity encoding and prediction: Human middle-latency and long-latency auditory evoked potentials |
Q44793396 | Specific or general? The nature of attention set changes triggered by distracting auditory events |
Q39292474 | Spectrotemporal processing drives fast access to memory traces for spoken words |
Q48333827 | Speeded responses to audiovisual signal changes result from bimodal integration. |
Q30328703 | Superior formation of cortical memory traces for melodic patterns in musicians |
Q44601345 | Suppression of the auditory N1 event-related potential component with unpredictable self-initiated tones: evidence for internal forward models with dynamic stimulation |
Q51870104 | Sustained selective intermodal attention modulates processing of language-like stimuli. |
Q48690993 | Synchronized brain activity during rehearsal and short-term memory disruption by irrelevant speech is affected by recall mode. |
Q58808057 | Syntactic and auditory spatial processing in the human temporal cortex: An MEG study |
Q37959720 | Temporal aspects of prediction in audition: cortical and subcortical neural mechanisms |
Q48390459 | Temporal grouping affects the automatic processing of deviant sounds. |
Q46129710 | Temporal regularity facilitates higher-order sensory predictions in fast auditory sequences |
Q50769302 | Texture segmentation and visual search for pop-out targets. An ERP study. |
Q58055980 | The Cerebellum Generates Motor-to-Auditory Predictions: ERP Lesion Evidence |
Q48621642 | The Feedback-related Negativity Codes Components of Abstract Inference during Reward-based Decision-making. |
Q47113087 | The Influence of Negative Emotion on Cognitive and Emotional Control Remains Intact in Aging |
Q30458191 | The N1-suppression effect for self-initiated sounds is independent of attention. |
Q58808096 | The Relation Between Onset, Offset, and Duration Perception as Examined by Psychophysical Data and Event-Related Brain Potentials |
Q58808076 | The cognitive control of distraction by novelty in children aged 7-8 and adults |
Q48144484 | The detection of higher-order acoustic transitions is reflected in the N1 ERP. |
Q45197601 | The development of involuntary and voluntary attention from childhood to adulthood: a combined behavioral and event-related potential study |
Q47303128 | The digitization of the Wundt estate at Leipzig University |
Q46770135 | The dissociation between the P3a event-related potential and behavioral distraction |
Q58808067 | The effects of response sharing and stimulus presentation frequency on event-related potentials in an auditory oddball paradigm |
Q30380126 | The effects of selective attention and speech acoustics on neural speech-tracking in a multi-talker scene. |
Q30459209 | The human brain maintains contradictory and redundant auditory sensory predictions |
Q38559997 | The influence of stimulus intensity and inter-stimulus interval on the detection of pitch and loudness changes. |
Q58808174 | The location of preceding stimuli affects selective processing in a sustained attention situation |
Q36537618 | The mismatch negativity in cognitive and clinical neuroscience: theoretical and methodological considerations |
Q30479048 | The modulation of auditory novelty processing by working memory load in school age children and adults: a combined behavioral and event-related potential study |
Q38420168 | The primacy of beauty in judging the aesthetics of objects |
Q48698566 | The processing of concurrent sounds based on inharmonicity and asynchronous onsets: an object-related negativity (ORN) study. |
Q81454748 | The processing of frequency deviations within sounds: evidence for the predictive nature of the Mismatch Negativity (MMN) system |
Q91947227 | The quest for the genuine visual mismatch negativity (vMMN): Event-related potential indications of deviance detection for low-level visual features |
Q58808058 | The representation of unattended, segmented sounds: A mismatch negativity (MMN) study |
Q27321100 | The role of emotion in dynamic audiovisual integration of faces and voices |
Q48971086 | The role of large-scale memory organization in the mismatch negativity event-related brain potential. |
Q48239569 | The time-course of auditory and visual distraction effects in a new crossmodal paradigm |
Q58808077 | The utility of brief, spectrally rich, dynamic sounds in the passive oddball paradigm |
Q52050474 | Time course of loudness in tone patterns is automatically represented by the human brain. |
Q30436047 | Timing matters: the processing of pitch relations |
Q48194961 | Top-down attention affects sequential regularity representation in the human visual system |
Q47382205 | Top-down control over involuntary attention switching in the auditory modality |
Q30381559 | Top-down modulation of auditory processing: effects of sound context, musical expertise and attentional focus. |
Q48644201 | Two separate mechanisms underlie auditory change detection and involuntary control of attention. |
Q50608267 | Unintentional temporal context-based prediction of emotional faces: an electrophysiological study. |
Q30450449 | Using a staircase procedure for the objective measurement of auditory stream integration and segregation thresholds |
Q40092414 | Violation of expectation: neural correlates reflect bases of prediction |
Q58808098 | Visual distraction: a behavioral and event-related brain potential study in humans |
Q48451325 | Visual marking for search: behavioral and event-related potential analyses. |
Q37924065 | Visual mismatch negativity and its importance in visual cognitive sciences |
Q51958749 | Visual mismatch negativity: new evidence from the equiprobable paradigm. |
Q48614207 | Visual object representations can be formed outside the focus of voluntary attention: evidence from event-related brain potentials. |
Q48500078 | Which kind of transition is important for sound representation? An event-related potential study. |
Q48017073 | Working memory controls involuntary attention switching: evidence from an auditory distraction paradigm |
Category:Erich Schröger | wikimedia | |
Egyptian Arabic (arz / Q29919) | اريك شروجر | wikipedia |
Erich Schröger | wikipedia | |
Erich Schröger | wikipedia |
Search more.