All Stories

  1. Establishing neural representations for new word forms in 12-month-old infants
  2. The effects of spatial leakage correction on the reliability of EEG‐based functional connectivity networks
  3. The effects of aging and hearing impairment on listening in noise
  4. The role of auditory source and action representations in segmenting experience into events
  5. Order effects in task-free learning: Tuning to information-carrying sound features
  6. Beat processing in newborn infants cannot be explained by statistical learning based on transition probabilities
  7. Early maturation of sound duration processing in the infant’s brain
  8. Neural phoneme discrimination in variable speech in newborns – Associations with dyslexia risk and later language skills
  9. Prerequisites of language acquisition in the newborn brain
  10. Speech prosody supports speaker selection and auditory stream segregation in a multi-talker situation
  11. Longitudinal study of functional brain networks for processing infant directed and adult directed speech during the first year
  12. The effects of aging and hearing impairment on listening in noise
  13. Neural phoneme discrimination in variable speech in newborns – associations with dyslexia risk and later language skills
  14. Beat processing in newborn infants cannot be explained by statistical learning based on transition probabilities
  15. Do we parse the background into separate streams in the cocktail party?
  16. More efficient formation of longer-term representations for word forms at birth can be linked to better language skills at 2 years
  17. Editorial: Sensing the World Through Predictions and Errors
  18. Speech prosody supports speaker selection and auditory stream segregation in a multi-talker situation
  19. Relevance to the higher order structure may govern auditory statistical learning in neonates
  20. Do we parse the background into separate streams in the cocktail party?
  21. Shorter Contextual Timescale Rather Than Memory Deficit in Aging
  22. Word class and word frequency in the MMN looking glass
  23. Who said what? The effects of speech tempo on target detection and information extraction in a multi‐talker situation: An ERP and functional connectivity study
  24. Special Report on the Impact of the COVID-19 Pandemic on Clinical EEG and Research and Consensus Recommendations for the Safe Use of EEG
  25. The effects of speech processing units on auditory stream segregation and selective attention in a multi-talker (cocktail party) situation
  26. Spatial cues can support auditory figure-ground segregation
  27. Linguistic predictability influences auditory stimulus classification within two concurrent speech streams
  28. Setting precedent: Initial feature variability affects the subsequent precision of regularly varying sound contexts
  29. Short-term cognitive fatigue effect on auditory temporal order judgments
  30. Newborn infants differently process adult directed and infant directed speech
  31. Children’s perception of visual and auditory ambiguity and its link to executive functions and creativity
  32. Neuronal Correlates of Informational and Energetic Masking in the Human Brain in a Multi-Talker Situation
  33. Temporal boundary of auditory event formation: An electrophysiological marker
  34. Attention and speech-processing related functional brain networks activated in a multi-speaker environment
  35. The nonlinear effect of temporal proximity in auditory stream construction
  36. The cognitive resource and foreknowledge dependence of auditory perceptual inference
  37. The effects of attention and task-relevance on the processing of syntactic violations during listening to two concurrent speech streams
  38. Similar but separate systems underlie perceptual bistability in vision and audition
  39. Predictive coding in auditory perception: challenges and unresolved questions
  40. Functional brain networks underlying idiosyncratic switching patterns in multi-stable auditory perception
  41. Large-scale network organization of EEG functional connectivity in newborn infants
  42. Auditory multistability and neurotransmitter concentrations in the human brain
  43. Computational Models of Auditory Scene Analysis: A Review
  44. Order-driven effects in auditory evoked potentials: First-impression prediction bias or adaptation?
  45. Transitional Probabilities Are Prioritized over Stimulus/Pattern Probabilities in Auditory Deviance Detection: Memory Basis for Predictive Sound Processing
  46. Theta oscillations accompanying concurrent auditory stream segregation
  47. Promoting the perception of two and three concurrent sound objects: an event-related potential study
  48. Auditory Multi-Stability: Idiosyncratic Perceptual Switching Patterns, Executive Functions and Personality Traits
  49. Mismatch response (MMR) in neonates: Beyond refractoriness
  50. Surprising sequential effects on MMN
  51. Assessing the validity of subjective reports in the auditory streaming paradigm
  52. Biased relevance filtering in the auditory system: A test of confidence-weighted first-impressions
  53. Előbb az összetett, később az egyszerű: Csecsemők magasabb szintű hangfeldolgozási képességei a beszédértés előtti időszakban*
  54. Predictive processing of pitch trends in newborn infants
  55. Comparison of skewness-based salient event detector algorithms in speech
  56. Auditory perceptual objects as generative models: Setting the stage for communication by sound
  57. Differences between human auditory event-related potentials (AERPs) measured at 2 and 4months after birth
  58. Detecting the temporal structure of sound sequences in newborn infants
  59. Newborn Infants Detect Cues of Concurrent Sound Segregation
  60. Auditory Perceptual Organization
  61. Auditory Event-Related Potentials
  62. Title: Persistent order-driven biases in auditory relevance-filtering processes - a mismatch negativity (MMN) study.
  63. Processing of Horizontal Sound Localization Cues in Newborn Infants
  64. Do first-impression bias effects in mismatch negativity (MMN) diminish with repeated exposure to sound sequences?
  65. Presentation Order Modulates Responses to Standards and Deviant Tones in MMN paradigms.
  66. Feature Predictability Flexibly Supports Auditory Stream Segregation or Integration
  67. Effects of multiple congruent cues on concurrent sound segregation during passive and active listening: An event-related potential (ERP) study
  68. Mismatch negativity (MMN) to pitch change is susceptible to order-dependent bias
  69. Maternal mindfulness and anxiety during pregnancy affect infants’ neural responses to sounds
  70. Do audio-visual motion cues promote segregation of auditory streams?
  71. The effects of rhythm and melody on auditory stream segregation
  72. Altering the primacy bias-How does a prior task affect mismatch negativity?
  73. Stable individual characteristics in the perception of multiple embedded patterns in multistable auditory stimuli
  74. Auditory Perceptual Organization
  75. What controls gain in gain control? Mismatch negativity (MMN), priors and system biases
  76. Predictive Regularity Representations in Violation Detection and Auditory Stream Segregation: From Conceptual to Computational Models
  77. Foreground-background discrimination indicated by event-related brain potentials in a new auditory multistability paradigm
  78. Different roles of similarity and predictability in auditory stream segregation
  79. Perceptual bistability in auditory streaming: How much do stimulus features matter?
  80. Modulation-frequency acts as a primary cue for auditory stream segregation
  81. The role of perceived source location in auditory stream segregation: Separation affects sound organization, common fate does not
  82. Event-related potential correlates of sound organization: Early sensory and late cognitive effects
  83. Modelling the Emergence and Dynamics of Perceptual Organisation in Auditory Streaming
  84. Detecting violations of temporal regularities in waking and sleeping two-month-old infants
  85. Separating acoustic deviance from novelty during the first year of life: a review of event-related potential evidence
  86. Context effects on processing widely deviant sounds in newborn infants
  87. Predictive processes in perception
  88. Breaking Down Bias
  89. Processing of concurrent sounds in newborn infants
  90. A unified description of auditory deviance detection and auditory stream segregation
  91. Competition and cooperation in a model of auditory scene analysis
  92. Effects of attention and cue redundancy on concurrent sound segregation as evaluated with event-related potentials (ERPs)
  93. Auditory Event-related Potentials
  94. Modeling auditory stream segregation by predictive processes
  95. Impact of lower- vs. upper-hemifield presentation on automatic colour-deviance detection: A visual mismatch negativity study
  96. Competing predictive regularity representations in an abstract model of auditory stream segregation (CHAINS)
  97. Characterising switching behaviour in perceptual multi-stability
  98. Multistability in auditory stream segregation: a predictive coding view
  99. Introductory notes on “Predictive information processing in the brain: Principles, neural mechanisms, and models”
  100. Evidence from auditory and visual event-related potential (ERP) studies of deviance detection (MMN and vMMN) linking predictive coding theories and perceptual object representations
  101. Regularity Extraction from Non-Adjacent Sounds
  102. Recording Event-Related Brain Potentials: Application to Study Auditory Perception
  103. Preventing distraction: Assessing stimulus-specific and general effects of the predictive cueing of deviant auditory events
  104. CHAINS: Competition and cooperation between fragmentary event predictors in a Model of Auditory Scene Analysis
  105. A multimodal-corpus data collection system for cognitive acoustic scene analysis
  106. Regular patterns stabilize auditory streams
  107. Phase Entrainment of Human Delta Oscillations Can Mediate the Effects of Expectation on Reaction Speed
  108. Auditory processing that leads to conscious perception: A unique window to central auditory processing opened by the mismatch negativity and related responses
  109. Predictive models in auditory stream segregation
  110. In search for the prerequisites of stable auditory object perception
  111. Auditory processing leading to conscious perception: A unique window to central auditory processing opened by the mismatch negativity (MMN) and related responses
  112. Preventing distraction: Assessing stimulus-specific and general effects
  113. Visual Object Representations Can Be Formed outside the Focus of Voluntary Attention: Evidence from Event-related Brain Potentials
  114. Unconscious Memory Representations in Perception
  115. Probability dependence and functional separation of the object-related and mismatch negativity event-related potential components
  116. Distraction in a continuous-stimulation detection task
  117. Stability of Perceptual Organisation in Auditory Streaming
  118. 3. In search for auditory object representations
  119. Modeling the auditory scene: predictive regularity representations and perceptual objects
  120. Deviance detection in congruent audiovisual speech: Evidence for implicit integrated audiovisual memory representations
  121. Auditory size-deviant detection in adults and newborn infants
  122. Is Beat Induction Innate or Learned?
  123. I Heard That Coming: Event-Related Potential Evidence for Stimulus-Driven Prediction in the Auditory System
  124. Age-related differences in distraction and reorientation in an auditory task
  125. Probing Attentive and Preattentive Emergent Meter in Adult Listeners without Extensive Music Training
  126. Newborn infants detect the beat in music
  127. Newborn infants process pitch intervals
  128. Processing of rhythmic structures in adults and newborn babies
  129. Adult-like pitch processing skills in newborn infants
  130. Can we regard adaptation as memory?
  131. Timbre-independent extraction of pitch in newborn infants
  132. Do N1/MMN, P3a, and RON form a strongly coupled chain reflecting the three stages of auditory distraction?
  133. Units of sound representation and temporal integration: A mismatch negativity study
  134. Early differential processing of verbs and nouns in the human brain as indexed by event-related brain potentials
  135. Functional prerequisites of music perception in newborn infants: Mismatch negativity studies.
  136. ERRATUM
  137. MMN or no MMN: No magnitude of deviance effect on the MMN amplitude
  138. Auditory temporal grouping in newborn infants
  139. N1 and the mismatch negativity are spatiotemporally distinct ERP components: Disruption of immediate memory by auditory distraction can be related to N1
  140. Backward masking and visual mismatch negativity: Electrophysiological evidence for memory-based detection of deviant stimuli
  141. Processing acoustic change and novelty in newborn infants
  142. The temporal window of integration in elderly and young adults
  143. The development of the perceptual organization of sound by frequency separation in 5–11-year-old children
  144. Interpreting the Mismatch Negativity
  145. The role of attention in the formation of auditory streams
  146. Visual temporal window of integration as revealed by the visual mismatch negativity event-related potential to stimulus omissions
  147. Association between dopamine D4 receptor (DRD4) gene polymorphisms and novelty-elicited auditory event-related potentials in preschool children
  148. The role of predictive models in the formation of auditory streams
  149. Object representation in the human auditory system
  150. ERPs and deviance detection: Visual mismatch negativity to repeated visual stimuli
  151. Loudness summation and the mismatch negativity event-related brain potential in humans
  152. Familiarity Affects the Processing of Task-irrelevant Auditory Deviance
  153. Preattentive representation of feature conjunctions for concurrent spatially distributed auditory objects
  154. Event-related brain potentials reveal multiple stages in the perceptual organization of sound
  155. Auditory organization of sound sequences by a temporal or numerical regularity—a mismatch negativity study comparing musicians and non-musicians
  156. Preattentive Binding of Auditory and Visual Stimulus Features
  157. Disruption of immediate memory and brain processes: an auditory ERP protocol
  158. Memory-based or afferent processes in mismatch negativity (MMN): A review of the evidence
  159. From Sensory to Long-Term Memory
  160. Effects of temporal grouping on the memory representation of inter-tone relationships
  161. Long-term exposure to noise impairs cortical sound processing and attention control
  162. How the human auditory system treats repetition amongst change
  163. Grouping of Sequential Sounds—An Event-Related Potential Study Comparing Musicians and Nonmusicians
  164. Pre-attentive auditory processing of lexicality
  165. The N1 hypothesis and irrelevant sound: evidence from token set size effects
  166. Processing abstract auditory features in the human auditory cortex
  167. Human auditory cortex tracks task-irrelevant sound sources
  168. Test-retest reliability of auditory ERP components in healthy 6-year-old children
  169. Language context and phonetic change detection
  170. Newborn infants can organize the auditory world
  171. Electric brain responses indicate preattentive processing of abstract acoustic regularities in children
  172. Mismatch negativity to pitch change: varied stimulus proportions in controlling effects of neural refractoriness on human auditory event-related brain potentials
  173. Representation of the standard: Stimulus context effects on the process generating the mismatch negativity component of event-related brain potentials
  174. MMN and attention: Competition for deviance detection
  175. Spectral and temporal stimulus characteristics in the processing of abstract auditory features
  176. Change Detection in Complex Auditory Environment: Beyond the Oddball Paradigm
  177. Modeling the Modeling
  178. Temporal integration: intentional sound discrimination does not modulate stimulus-driven processes in auditory event synthesis
  179. Memory-based detection of task-irrelevant visual changes
  180. Simultaneous storage of two complex temporal sound patterns in auditory sensory memory
  181. Temporary and longer term retention of acoustic information
  182. Top-down effects can modify the initially stimulus-driven auditory organization
  183. Dynamic sensory updating in the auditory system
  184. Event-related potential correlates of sound duration: similar pattern from birth to adulthood
  185. Simultaneously active pre-attentive representations of local and global rules for sound sequences in the human brain
  186. Mismatch negativity is unaffected by top-down predictive information
  187. Common neural mechanism for processing onset-to-onset intervals and silent gaps in sound sequences
  188. ‘Primitive intelligence’ in the auditory cortex
  189. Organizing sound sequences in the human brain: the interplay of auditory streaming and temporal integration
  190. Auditory stream segregation processes operate similarly in school-aged children and adults
  191. Preattentive extraction of abstract feature conjunctions from auditory stimulation as reflected by the mismatch negativity (MMN)
  192. Preattentive extraction of abstract feature conjunctions from auditory stimulation as reflected by the mismatch negativity (MMN)
  193. Changes in acoustic features and their conjunctions are processed by separate neuronal populations
  194. The Role of Large-Scale Memory Organization in the Mismatch Negativity Event-Related Brain Potential
  195. The brain recognizes familiar phonotactics in a foreign environment
  196. Preattentive processing of spectral, temporal, and structural characteristics of acoustic regularities: A mismatch negativity study
  197. Preattentive processing of spectral, temporal, and structural characteristics of acoustic regularities: A mismatch negativity study
  198. Involuntary Attention and Distractibility as Evaluated with Event-Related Brain Potentials
  199. Brain responses reveal the learning of foreign language phonemes
  200. Brain responses reveal the learning of foreign language phonemes
  201. Event-related brain potentials reveal covert distractibility in closed head injuries
  202. Independent processing of changes in auditory single features and feature conjunctions in humans as indexed by the mismatch negativity
  203. Temporal integration of auditory stimulus deviance as reflected by the mismatch negativity
  204. Neuronal populations in the human brain extracting invariant relationships from acoustic variance
  205. Pre-attentive detection of vowel contrasts utilizes both phonetic and auditory memory representations
  206. The concept of auditory stimulus representation in cognitive neuroscience.
  207. The concept of auditory stimulus representation in cognitive neuroscience.
  208. Neural Mechanisms of Involuntary Attention to Acoustic Novelty and Change
  209. Combined mapping of human auditory EEG and MEG responses
  210. Processing of novel sounds and frequency changes in the human auditory cortex: Magnetoencephalographic recordings
  211. Processing of novel sounds and frequency changes in the human auditory cortex: Magnetoencephalographic recordings
  212. Preattentive processing of auditory spatial information in humans
  213. Temporal constraints of auditory event synthesis
  214. Two separate codes for missing-fundamental pitch in the human auditory cortex
  215. Pre-attentive categorization of sounds by timbre as revealed by event-related potentials
  216. Adaptive modeling of the unattended acoustic environment reflected in the mismatch negativity event-related potential
  217. Preattentive auditory change detection relies on unitary sensory memory representations
  218. Interactions between Transient and Long-Term Auditory Memory as Reflected by the Mismatch Negativity
  219. Effects of ethanol and auditory distraction on forced choice reaction time
  220. From objective to subjective
  221. Presentation rate and magnitude of stimulus deviance effects on human pre-attentive change detection
  222. Neural representation for the temporal structure of sound patterns
  223. Event-related brain potentials reflect traces of echoic memory in humans
  224. Memory prerequisites of mismatch negativity in the auditory event-related potential (ERP).
  225. Event-related potentials in auditory backward recognition masking: A new way to study the neurophysiological basis of sensory memory in humans
  226. Can Echoic Memory Store Two Traces Simultaneously? A Study of Event-Related Brain Potentials
  227. Mismatch negativity in auditory recognition masking
  228. The Effect of Small Variation of the Frequent Auditory Stimulus on the Event-Related Brain Potential to the Infrequent Stimulus
  229. Intracortical auditory evoked potentials during classical aversive conditioning in cats