| Q30363115 | A Bayesian Account of Vocal Adaptation to Pitch-Shifted Auditory Feedback. |
| Q89620360 | A Simple 3-Parameter Model for Examining Adaptation in Speech and Voice Production |
| Q30461808 | A cross-language study of compensation in response to real-time formant perturbation |
| Q28709235 | A lightweight, headphones-based system for manipulating auditory feedback in songbirds. |
| Q30389867 | ANALOGY AND DISANALOGY IN PRODUCTION AND PERCEPTION OF SPEECH |
| Q38994051 | Abnormal vocal behavior predicts executive and memory deficits in Alzheimer's disease |
| Q48614375 | Adaptation to delayed auditory feedback induces the temporal recalibration effect in both speech perception and production |
| Q100503956 | Adaptation to pitch-altered feedback is independent of one's own voice pitch sensitivity |
| Q30473957 | Adaptive auditory feedback control of the production of formant trajectories in the Mandarin triphthong /iau/ and its pattern of generalization |
| Q48555456 | Adaptive coding of orofacial and speech actions in motor and somatosensory spaces with and without overt motor behavior |
| Q24657611 | Adult birdsong is actively maintained by error correction. |
| Q60946974 | An Investigation of Compensation and Adaptation to Auditory Perturbations in Individuals With Acquired Apraxia of Speech |
| Q30473296 | An investigation of the relation between sibilant production and somatosensory and auditory acuity |
| Q49332953 | Analysis of the Auditory Feedback and Phonation in Normal Voices |
| Q30482360 | Attenuation of vocal responses to pitch perturbations during Mandarin speech |
| Q30440166 | Auditory feedback of one's own voice is used for high-level semantic monitoring: the "self-comprehension" hypothesis |
| Q50061995 | Auditory prediction during speaking and listening |
| Q50310909 | Auditory-motor adaptation is reduced in adults who stutter but not in children who stutter |
| Q30456069 | Auditory-motor adaptation to frequency-altered auditory feedback occurs when participants ignore feedback |
| Q27318939 | Auditory-motor learning during speech production in 9-11-year-old children |
| Q30487127 | Auditory-motor mapping for pitch control in singers and nonsingers |
| Q30405802 | Auditory-perceptual learning improves speech motor adaptation in children |
| Q30608395 | Body ownership causes illusory self-attribution of speaking and influences subsequent real speaking |
| Q47344363 | Brain activity during phonation in healthy female singers with supraglottic compression: an fMRI pilot study |
| Q92055108 | Can perceptual training alter the effect of visual biofeedback in speech-motor learning? |
| Q90124156 | Categorization in the Perception of Breathy Voice Quality and Its Relation to Voice Production in Healthy Speakers |
| Q30542613 | Comparison of voice F0 responses to pitch-shift onset and offset conditions |
| Q30499176 | Compensation for pitch-shifted auditory feedback during the production of Mandarin tone sequences |
| Q33874157 | Compensations to auditory feedback perturbations in congenitally blind and sighted speakers: Acoustic and articulatory data |
| Q30468117 | Contextual cuing contributes to the independent modification of multiple internal models for vocal control |
| Q30481017 | Control of vocalization at utterance onset and mid-utterance: different mechanisms for different goals |
| Q30452050 | Converging toward a common speech code: imitative and perceptuo-motor recalibration processes in speech production |
| Q27322827 | Covert digital manipulation of vocal emotion alter speakers' emotional states in a congruent direction. |
| Q30460240 | Effects of voice harmonic complexity on ERP responses to pitch-shifted auditory feedback |
| Q41548551 | Embodiment in a Child-Like Talking Virtual Body Influences Object Size Perception, Self-Identification, and Subsequent Real Speaking |
| Q47111303 | Embodiment in a virtual body that speaks produces agency over the speaking but does not necessarily influence subsequent real speaking |
| Q46017392 | Evidence for Auditory-Motor Impairment in Individuals With Hyperfunctional Voice Disorders. |
| Q30010623 | Experience-dependent modulation of feedback integration during singing: role of the right anterior insula |
| Q30433877 | Functional and structural aging of the speech sensorimotor neural system: functional magnetic resonance imaging evidence |
| Q30386932 | Functional connectivity associated with acoustic stability during vowel production: implications for vocal-motor control. |
| Q48859106 | Functional imaging during speech production |
| Q30480236 | Functional overlap between regions involved in speech perception and in monitoring one's own voice during speech production |
| Q55363727 | Group and individual variability in speech production networks during delayed auditory feedback. |
| Q30450967 | Human cortical sensorimotor network underlying feedback control of vocal pitch. |
| Q30461940 | Inferior frontal sensitivity to common speech sounds is amplified by increasing word intelligibility |
| Q30439140 | Language dependent vowel representation in speech production |
| Q30467071 | Laryngeal electromyographic responses to perturbations in voice pitch auditory feedback |
| Q30503376 | Laryngeal muscle responses to mechanical displacement of the thyroid cartilage in humans |
| Q90183233 | Learning and adaptation in speech production without a vocal tract |
| Q30560281 | Left-hemisphere activation is associated with enhanced vocal pitch error detection in musicians with absolute pitch |
| Q92984214 | Modeling the Role of Sensory Feedback in Speech Motor Control and Learning |
| Q47868776 | Modulation of Speech Motor Learning with Transcranial Direct Current Stimulation of the Inferior Parietal Lobe |
| Q50346927 | Modulation of auditory-motor learning in response to formant perturbation as a function of delayed auditory feedback. |
| Q30385452 | Multifunctional and Context-Dependent Control of Vocal Acoustics by Individual Muscles. |
| Q30484090 | Multiple instances of vocal sensorimotor adaptation to frequency-altered feedback within a single experimental session |
| Q89457463 | Neural Basis of Sensorimotor Plasticity in Speech Motor Adaptation |
| Q53401672 | Neural bases of sensorimotor adaptation in the vocal motor system. |
| Q64074537 | Neural correlates of abnormal auditory feedback processing during speech production in Alzheimer’s disease |
| Q30449056 | Neural correlates of phonetic convergence and speech imitation |
| Q55315740 | Online Adaptation to Altered Auditory Feedback Is Predicted by Auditory Acuity and Not by Domain-General Executive Control Resources. |
| Q30448675 | Opposing and following vocal responses to pitch-shifted auditory feedback: evidence for different mechanisms of voice pitch control |
| Q46309711 | Partial compensation for altered auditory feedback: a tradeoff with somatosensory feedback? |
| Q30475843 | Perceiving a stranger's voice as being one's own: a 'rubber voice' illusion? |
| Q93104202 | Pitch Shifting With the Commercially Available Eventide Eclipse: Intended and Unintended Changes to the Speech Signal |
| Q28658072 | Plasticity in primary auditory cortex of monkeys with altered vocal production |
| Q55399393 | Pre-attentive auditory discrimination skill in Indian classical vocal musicians and non-musicians. |
| Q30470975 | Probing the independence of formant control using altered auditory feedback |
| Q30467594 | Prosodic adaptations to pitch perturbation in running speech |
| Q56481819 | Rapid and multifaceted effects of second-language learning on first-language speech production |
| Q48961179 | Reflexive and volitional voice fundamental frequency responses to an anticipated feedback pitch error |
| Q90009823 | Relationships between vocal pitch perception and production: a developmental perspective |
| Q30429912 | Sensorimotor adaptation of speech in Parkinson's disease |
| Q48159009 | Sensorimotor adaptation of voice fundamental frequency in Parkinson's disease |
| Q86605482 | Silent articulation modulates auditory and audiovisual speech perception |
| Q48276153 | Somatosensory basis of speech production |
| Q30468999 | Speaker compensation for local perturbation of fricative acoustic feedback |
| Q38431330 | Speakers' acceptance of real-time speech exchange indicates that we use auditory feedback to specify the meaning of what we say. |
| Q94511989 | Speaking to a common tune: Between-speaker convergence in voice fundamental frequency in a joint speech production task |
| Q30491409 | Speech disruption during delayed auditory feedback with simultaneous visual feedback |
| Q37959531 | Speech motor skill and stuttering |
| Q30444459 | Speech perception under adverse conditions: insights from behavioral, computational, and neuroscience research |
| Q30473261 | Speech production as state feedback control |
| Q46450785 | Spoken language achieves robustness and evolvability by exploiting degeneracy and neutrality. |
| Q30372416 | Temporal Resolution and Active Auditory Discrimination Skill in Vocal Musicians. |
| Q30413100 | Temporal control and compensation for perturbed voicing feedback |
| Q30364839 | The Effects of Pitch Shifts on Delay-Induced Changes in Vocal Sequencing in a Songbird. |
| Q38637566 | The Impact of Glottal Configuration on Speech Breathing |
| Q30377570 | The cortical computations underlying feedback control in vocal production. |
| Q30408760 | The effects of delayed auditory and visual feedback on speech production |
| Q90472586 | The influence of bistable auditory feedback on speech motor control |
| Q30484222 | The influence of visual feedback and register changes on sign language production: A kinematic study with deaf signers |
| Q30431849 | The neural control of singing |
| Q30501014 | The role of auditory feedback in sustaining vocal vibrato |
| Q92474307 | The role of the cerebellum in adaptation: ALE meta-analyses on sensory feedback error |
| Q30433708 | The role of vowel perceptual cues in compensatory responses to perturbations of speech auditory feedback |
| Q30480224 | The sensitivity of auditory-motor representations to subtle changes in auditory feedback while singing |
| Q58612404 | Timing variability of sensorimotor integration during vocalization in individuals who stutter |
| Q27022286 | Variations on a theme: Songbirds, variability, and sensorimotor error correction |
| Q30481002 | Vocal accuracy and neural plasticity following micromelody-discrimination training |
| Q28659992 | Vocal generalization depends on gesture identity and sequence |
| Q30501155 | Vocal responses to unanticipated perturbations in voice loudness feedback: an automatic mechanism for stabilizing voice amplitude |
| Q93601342 | Weighting of Auditory Feedback Across the English Vowel Space |