review article | Q7318358 |
scholarly article | Q13442814 |
P8978 | DBLP publication ID | journals/cp/KilnerFF07 |
P356 | DOI | 10.1007/S10339-007-0170-2 |
P2888 | exact match | https://scigraph.springernature.com/pub.10.1007/s10339-007-0170-2 |
P932 | PMC publication ID | 2649419 |
P698 | PubMed publication ID | 17429704 |
P5875 | ResearchGate publication ID | 6398200 |
P50 | author | Chris D. Frith | Q1077217 |
Karl J. Friston | Q6371926 | ||
James Kilner | Q35703834 | ||
P2860 | cites work | Grasping the intentions of others with one's own mirror neuron system | Q21146369 |
THE MIRROR-NEURON SYSTEM | Q22337026 | ||
Understanding emotions in others: mirror neuron dysfunction in children with autism spectrum disorders | Q24598165 | ||
Interacting minds--a biological basis | Q28138850 | ||
Brain areas involved in perception of biological motion | Q28142468 | ||
Understanding motor events: a neurophysiological study | Q28207673 | ||
Neurophysiological mechanisms underlying the understanding and imitation of action | Q28215115 | ||
A theory of cortical responses | Q28254705 | ||
EEG evidence for mirror neuron dysfunction in autism spectrum disorders | Q28259521 | ||
An internal model for sensorimotor integration | Q28290085 | ||
Action recognition in the premotor cortex | Q29615375 | ||
Social perception from visual cues: role of the STS region | Q33906227 | ||
Reafferent copies of imitated actions in the right superior temporal cortex | Q33950274 | ||
I know what you are doing. a neurophysiological study | Q33953995 | ||
Mirror neurons and the simulation theory of mind-reading | Q34158618 | ||
Functional integration and inference in the brain | Q34160766 | ||
Forward Models for Physiological Motor Control. | Q34186618 | ||
Learning and inference in the brain | Q34277283 | ||
Demystifying social cognition: a Hebbian perspective. | Q34359968 | ||
Responses of Anterior Superior Temporal Polysensory (STPa) Neurons to "Biological Motion" Stimuli. | Q34365370 | ||
Against simulation: the argument from error | Q34408613 | ||
Parietal lobe: from action organization to intention understanding | Q34414656 | ||
Temporal dynamics of cortical representation for action | Q34981903 | ||
A unifying computational framework for motor control and social interaction | Q35213486 | ||
The motor theory of social cognition: a critique | Q36003582 | ||
Schizophrenia and the mirror system: an essay | Q36039521 | ||
Neural mechanisms of imitation | Q36306835 | ||
Probabilistic models of language processing and acquisition | Q36511458 | ||
Embodied simulation: from mirror neuron systems to interpersonal relations. | Q36703682 | ||
Prospective coding in event representation | Q36779506 | ||
Largely segregated parietofrontal connections linking rostral intraparietal cortex (areas AIP and VIP) and the ventral premotor cortex (areas F5 and F4). | Q48120256 | ||
Parietal, temporal, and occipital projections to cortex of the superior temporal sulcus in the rhesus monkey: a retrograde tracer study | Q48123028 | ||
Prediction precedes control in motor learning | Q48401580 | ||
Viewing lip forms: cortical dynamics. | Q48421453 | ||
Goal representation in human anterior intraparietal sulcus. | Q48459573 | ||
A unifying view of the basis of social cognition. | Q50993303 | ||
Connecting mirror neurons and forward models. | Q53647759 | ||
Connection Patterns Distinguish 3 Regions of Human Parietal Cortex | Q56882412 | ||
Visual processing of faces in temporal cortex: physiological evidence for a modular organization and possible anatomical correlates | Q87289559 | ||
P433 | issue | 3 | |
P407 | language of work or name | English | Q1860 |
P921 | main subject | mirror neuron | Q309082 |
P1104 | number of pages | 8 | |
P304 | page(s) | 159-166 | |
P577 | publication date | 2007-04-12 | |
P1433 | published in | Cognitive Processing | Q15745206 |
P1476 | title | Predictive coding: an account of the mirror neuron system | |
P478 | volume | 8 |
Q55427850 | 'Seeing the Dark': Grounding Phenomenal Transparency and Opacity in Precision Estimation for Active Inference. |
Q41011603 | 10-Month-Old Infants Are Sensitive to the Time Course of Perceived Actions: Eye-Tracking and EEG Evidence |
Q37696688 | A Causal Role for Primary Motor Cortex in Perception of Observed Actions. |
Q34093076 | A Computational Account of Borderline Personality Disorder: Impaired Predictive Learning about Self and Others Through Bodily Simulation |
Q38309248 | A Duet for one. |
Q57551094 | A Mechanistic Account of Computational Explanation in Cognitive Science and Computational Neuroscience |
Q38527778 | A Neurophysiological and Neuropsychological Consideration of Mindful Movement: Clinical and Research Implications |
Q60047663 | A Predictive Processing Model of Perception and Action for Self-Other Distinction |
Q30366458 | A conceptual review on action-perception coupling in the musicians' brain: what is it good for? |
Q47726416 | A matter of you versus me? Experiences of control in a joint go/no-go task |
Q43024289 | A predictive coding perspective on autism spectrum disorders |
Q89764801 | A sensorimotor control framework for understanding emotional communication and regulation |
Q24020991 | ALE meta-analysis of action observation and imitation in the human brain |
Q30572757 | Abstracting Dance: Detaching Ourselves from the Habitual Perception of the Moving Body |
Q55280561 | Action Observation Areas Represent Intentions From Subtle Kinematic Features. |
Q88088843 | Action Organization in Lateral Occipitotemporal Cortex |
Q48031541 | Action mirroring and action understanding: an ideomotor and attentional account |
Q36567188 | Action observation in the infant brain: the role of body form and motion |
Q37740689 | Action perception as hypothesis testing |
Q34738009 | Action prediction in younger versus older adults: neural correlates of motor familiarity |
Q48402026 | Action preparation helps and hinders perception of action |
Q35681451 | Action production influences 12-month-old infants' attention to others' actions |
Q35058576 | Action recognition depends on observer's level of action control and social personality traits |
Q38372921 | Action semantics modulate action prediction |
Q47925893 | Action simulation plays a critical role in deceptive action recognition. |
Q38448505 | Action simulation: time course and representational mechanisms |
Q39782181 | Action understanding and active inference |
Q92237763 | Activation of Mirror Neuron Regions Is Altered in Developmental Coordination Disorder (DCD)-Neurophysiological Evidence Using an Action Observation Paradigm |
Q97595721 | Activation of cerebellum and basal ganglia during the observation and execution of manipulative actions |
Q90053541 | Active inference under visuo-proprioceptive conflict: Simulation and empirical results |
Q30406538 | Active inference, communication and hermeneutics |
Q54942205 | Active inference, enactivism and the hermeneutics of social cognition. |
Q47270850 | Affective and cooperative social interactions modulate effective connectivity within and between the mirror and mentalizing systems. |
Q55072006 | Am I Self-Conscious? (Or Does Self-Organization Entail Self-Consciousness?). |
Q94544572 | An Investigation of the Free Energy Principle for Emotion Recognition |
Q48317668 | An enhanced experimental procedure to rationalize on the impairment of perception of action capabilities. |
Q36033470 | An fMRI study of joint action-varying levels of cooperation correlates with activity in control networks |
Q30714388 | An fMRI study of perception and action in deaf signers |
Q35557577 | An integrative neural model of social perception, action observation, and theory of mind |
Q37415327 | Assessing human mirror activity with EEG mu rhythm: A meta-analysis. |
Q30488421 | Asymmetric fMRI adaptation reveals no evidence for mirror neurons in humans |
Q49078479 | Attention allocation and task representation during joint action planning. |
Q73680944 | Attentional Modulation of Vision Versus Proprioception During Action |
Q42114022 | Autism is associated with reduced ability to interpret grasping actions of others |
Q58577930 | Autistic traits predict poor integration between top-down contextual expectations and movement kinematics during action observation |
Q37132467 | Automatic detection of service initiation signals used in bars |
Q46703244 | Before Cumulative Culture : The Evolutionary Origins of Overimitation and Shared Intentionality |
Q83475510 | Before, during and after you disappear: aspects of timing and dynamic updating of the real-time action simulation of human motions |
Q27314523 | Behavioral and TMS Markers of Action Observation Might Reflect Distinct Neuronal Processes. |
Q48098012 | Body posture modulates action perception. |
Q50779407 | Boosting and Decreasing Action Prediction Abilities Through Excitatory and Inhibitory tDCS of Inferior Frontal Cortex. |
Q30544692 | Both novelty and expertise increase action observation network activity |
Q30393814 | Brain basis of communicative actions in language |
Q30359258 | Brain correlates of music-evoked emotions. |
Q42174489 | Brain-computer interfaces: a neuroscience paradigm of social interaction? A matter of perspective |
Q30302896 | Building Machines That Learn and Think Like People |
Q30499725 | Caudate nucleus signals for breaches of expectation in a movement observation paradigm. |
Q30382559 | Causal Role of Motor Simulation in Turn-Taking Behavior. |
Q30361185 | Cerebral activations related to audition-driven performance imagery in professional musicians. |
Q33523029 | Characteristics of motor resonance predict the pattern of flash-lag effects for biological motion |
Q30572182 | Cognitive Control Structures in the Imitation Learning of Spatial Sequences and Rhythms-An fMRI Study. |
Q34738198 | Collective-goal ascription increases cooperation in humans. |
Q39639636 | Compensatory plasticity in the action observation network: virtual lesions of STS enhance anticipatory simulation of seen actions |
Q27015992 | Complementary actions |
Q48585274 | Componential Network for the Recognition of Tool-Associated Actions: Evidence from Voxel-based Lesion-Symptom Mapping in Acute Stroke Patients. |
Q50418338 | Computational Neuropsychology and Bayesian Inference. |
Q42148042 | Computational cognitive modelling of action awareness: prior and retrospective. |
Q38584900 | Computational psychiatry: the brain as a phantastic organ |
Q36368792 | Constructing Visual Perception of Body Movement with the Motor Cortex |
Q34512850 | Continuous theta-burst stimulation demonstrates a causal role of premotor homunculus in action understanding |
Q30466658 | Coordination dynamics in a socially situated nervous system. |
Q30558211 | Crossmodal correspondences between sounds and tastes |
Q64104180 | Cues to intention bias action perception toward the most efficient trajectory |
Q36339521 | Cultural Differences in Perceiving Sounds Generated by Others: Self Matters |
Q30368040 | Dancers entrain more effectively than non-dancers to another actor's movements. |
Q50874677 | Decoding Concrete and Abstract Action Representations During Explicit and Implicit Conceptual Processing. |
Q48167273 | Decoding actions at different levels of abstraction. |
Q42043119 | Decoding intentions from movement kinematics. |
Q41533745 | Decoding social intentions in human prehensile actions: Insights from a combined kinematics-fMRI study. |
Q37921650 | Deficits in social cognition: a marker for psychiatric disorders? |
Q35746873 | Direct mapping rather than motor prediction subserves modulation of corticospinal excitability during observation of actions in real time |
Q36103142 | Dissociable roles of human inferior frontal gyrus during action execution and observation |
Q49666862 | Dissociated Representations of Deceptive Intentions and Kinematic Adaptations in the Observer's Motor System. |
Q34151527 | Dissociating bottom-up and top-down processes in a manual stimulus-response compatibility task |
Q30577970 | Dissociating dynamic probability and predictability in observed actions-an fMRI study |
Q42037751 | Do monkey F5 mirror neurons show changes in firing rate during repeated observation of natural actions? |
Q30520626 | Dynamic modulation of human motor activity when observing actions. |
Q35020260 | Dynamic modulation of the action observation network by movement familiarity |
Q45834528 | Dynamic simulation and static matching for action prediction: evidence from body part priming |
Q28754716 | Dysconnection in schizophrenia: from abnormal synaptic plasticity to failures of self-monitoring |
Q51771047 | ERP correlates of processing the auditory consequences of own versus observed actions. |
Q48147191 | Early modulation of intra-cortical inhibition during the observation of action mistakes. |
Q38645261 | Echoes on the motor network: how internal motor control structures afford sensory experience. |
Q34542403 | Effects of context on visuomotor interference depends on the perspective of observed actions |
Q33359080 | Effects of short-term experience on anticipatory eye movements during action observation |
Q48901106 | Effects of the model's handedness and observer's viewpoint on observational learning. |
Q30656700 | Embodied learning of a generative neural model for biological motion perception and inference |
Q35921208 | Emotional and movement-related body postures modulate visual processing. |
Q102379426 | Enhanced mirroring upon mutual gaze: multimodal evidence from TMS-assessed corticospinal excitability and the EEG mu rhythm |
Q30367742 | Entrainment and motor emulation approaches to joint action: Alternatives or complementary approaches? |
Q55250306 | Evidence for a dyadic motor plan in joint action. |
Q47171360 | Evidence for causal top-down frontal contributions to predictive processes in speech perception. |
Q90479094 | Expanding Simulation Models of Emotional Understanding: The Case for Different Modalities, Body-State Simulation Prominence, and Developmental Trajectories |
Q35847660 | Exploring associations between gaze patterns and putative human mirror neuron system activity. |
Q35121819 | Facial motion engages predictive visual mechanisms. |
Q30659808 | Fifteen-month-old infants use velocity information to predict others' action targets |
Q64229392 | Filling the gap despite full attention: the role of fast backward inferences for event completion |
Q36031690 | Forward to the past |
Q53501569 | From cognitivism to autopoiesis: towards a computational framework for the embodied mind. |
Q38805905 | From movement kinematics to social cognition: the case of autism. |
Q57711010 | From symbols to icons: the return of resemblance in the cognitive neuroscience revolution |
Q27317407 | Granger causality mapping during joint actions reveals evidence for forward models that could overcome sensory-motor delays |
Q39621491 | Grasping intentions: from thought experiments to empirical evidence |
Q38207975 | Hebbian learning and predictive mirror neurons for actions, sensations and emotions |
Q30658339 | Hesitant avoidance while walking: an error of social behavior generated by mutual interaction. |
Q37979823 | Hierarchies in action and motor control |
Q38083028 | Hierarchy of idea-guided action and perception-guided movement |
Q37981108 | How does visuomotor priming differ for biological and non-biological stimuli? A review of the evidence. |
Q41564819 | How spontaneous brain activity and narcissistic features shape social interaction. |
Q24634412 | Human consciousness and its relationship to social neuroscience: A novel hypothesis |
Q35053322 | Human sensorimotor communication: a theory of signaling in online social interactions |
Q64240516 | I See Your Effort: Force-Related BOLD Effects in an Extended Action Execution-Observation Network Involving the Cerebellum |
Q35662501 | I know what I will see: action-specific motor preparation activity in a passive observation task |
Q37686913 | Identification of probabilities. |
Q36785596 | Impaired global, and compensatory local, biological motion processing in people with high levels of autistic traits. |
Q47718319 | Implicit agency in observed actions: evidence for N1 suppression of tones caused by self-made and observed actions |
Q36516009 | Individual differences in action co-representation: not personal distress or subclinical psychotic experiences but sex composition modulates joint action performance |
Q35959870 | Individual differences in reading social intentions from motor deviants |
Q47836090 | Infants' Motor Proficiency and Statistical Learning for Actions |
Q30589114 | Intention understanding over T: a neuroimaging study on shared representations and tennis return predictions |
Q43637296 | Intentional binding in self-made and observed actions |
Q42786518 | Intentional communication: computationally easy or difficult? |
Q47773436 | Intentions in the brain: the unveiling of Mister Hyde |
Q90019206 | Interactional Synchrony: Signals, Mechanisms, and Benefits |
Q27339976 | Interactional leader-follower sensorimotor communication strategies during repetitive joint actions |
Q47786586 | Interplay Between Conceptual Expectations and Movement Predictions Underlies Action Understanding |
Q48023958 | Interplay between action and movement intentions during social interaction |
Q35907256 | Is Brain Activity during Action Observation Modulated by the Perceived Fairness of the Actor? |
Q27687593 | Is it the real deal? Perception of virtual characters versus humans: an affective cognitive neuroscience perspective |
Q58643658 | Just Imagine! Learning to Emulate and Infer Actions with a Stochastic Generative Architecture |
Q52149638 | Kick with the finger: symbolic actions shape motor cortex excitability. |
Q39665817 | Language-induced modulation during the prediction of others' actions |
Q37557118 | Leaping from brain to mind: a critique of mirror neuron explanations of countertransference |
Q47724785 | Learning to make external sensory stimulus predictions using internal correlations in populations of neurons. |
Q41831111 | Learning to understand others' actions |
Q56660348 | Long- and short-term plastic modeling of action prediction abilities in volleyball |
Q57125608 | Look at Me: Early Gaze Engagement Enhances Corticospinal Excitability During Action Observation |
Q40754327 | Looking ahead: Anticipatory cueing of attention to objects others will look at. |
Q50345488 | Low Fidelity Imitation of Atypical Biological Kinematics in Autism Spectrum Disorders Is Modulated by Self-Generated Selective Attention. |
Q90295659 | Making Sense of the World: Infant Learning From a Predictive Processing Perspective |
Q64244157 | Mental Simulation of Facial Expressions: Mu Suppression to the Viewing of Dynamic Neutral Face Videos |
Q30441866 | Might as well jump: sound affects muscle activation in skateboarding |
Q52625667 | Mimicking and anticipating others' actions is linked to Social Information Processing. |
Q38142068 | Minimal self-models and the free energy principle |
Q48462954 | Mirror neuron activation prior to action observation in a predictable context. |
Q38207775 | Mirror neurons: from origin to function |
Q50667103 | Mirror representations innate versus determined by experience: a viewpoint from learning theory. |
Q49032590 | Mirroring avatars: dissociation of action and intention in human motor resonance. |
Q47552773 | Modeling the Predictive Social Mind. |
Q92029505 | Modification of knee flexion during walking with use of a real-time personalized avatar |
Q47137943 | Modulating Mimetic Preference with Theta Burst Stimulation of the Inferior Parietal Cortex |
Q48307006 | Modulation in the mirror neuron system when action prediction is not satisfied |
Q30493105 | Modulation of perception and brain activity by predictable trajectories of facial expressions. |
Q42225560 | More than one pathway to action understanding |
Q48139966 | Motor activation during observation of unusual versus ordinary actions in infancy |
Q48215846 | Motor signatures of emotional reactivity in frontotemporal dementia. |
Q30431086 | Motor simulation and the coordination of self and other in real-time joint action |
Q59804130 | Motor system recruitment during action observation: No correlation between mu-rhythm desynchronization and corticospinal excitability |
Q36060081 | Motor-Evoked Potentials in the Lower Back Are Modulated by Visual Perception of Lifted Weight |
Q48617977 | Movement kinematics affect action prediction: comparing human to non-human point-light actions. |
Q56963985 | Movement kinematics drive chain selection toward intention detection |
Q48135926 | Moving together: toward understanding the mechanisms of joint action |
Q91690601 | Mu rhythm desynchronization is specific to action execution and observation: Evidence from time-frequency and connectivity analysis |
Q64061754 | Multi-layer adaptation of group coordination in musical ensembles |
Q58596280 | Multimodal Music Perception Engages Motor Prediction: A TMS Study |
Q38170105 | Multiple roles of motor imagery during action observation. |
Q51886849 | Multiplicative gain modulation arises through unsupervised learning in a predictive coding model of cortical function. |
Q92296268 | Musical interaction is influenced by underlying predictive models and musical expertise |
Q36651897 | N400 ERPs for actions: building meaning in context |
Q38750278 | Network analysis of perception-action coupling in infants. |
Q57300108 | Neural Underpinnings of the Perception of Emotional States Derived From Biological Human Motion: A Review of Neuroimaging Research |
Q44703257 | Neural changes when actions change: adaptation of strong and weak expectations |
Q30850620 | Neural coding of prior expectations in hierarchical intention inference. |
Q90471904 | Neural dynamics of grip and goal integration during the processing of others' actions with objects: An ERP study |
Q50418371 | Neural mechanisms of behavioral change in young adults with high-functioning autism receiving virtual reality social cognition training: A pilot study. |
Q30397865 | Neural mirroring and social interaction: Motor system involvement during action observation relates to early peer cooperation. |
Q36162733 | Neural networks for action representation: a functional magnetic-resonance imaging and dynamic causal modeling study |
Q36035277 | Neural regions discriminating contextual information as conveyed through the learned preferences of others |
Q28655698 | Neural rhythmic symphony of human walking observation: Upside-down and Uncoordinated condition on cortical theta, alpha, beta and gamma oscillations |
Q38218668 | Neuroanatomical substrates of action perception and understanding: an anatomic likelihood estimation meta-analysis of lesion-symptom mapping studies in brain injured patients |
Q38760841 | Neuroimaging and Occupational Therapy: Bridging the Gap to Advance Rehabilitation in Developmental Coordination Disorder |
Q48926225 | No two are the same: Body shape is part of identifying others. |
Q98729392 | Nonlinear engagement of action observation network underlying action anticipation in players with different levels of expertise |
Q27307175 | Object visibility alters the relative contribution of ventral visual stream and mirror neuron system to goal anticipation during action observation |
Q35757147 | Observation and imitation of actions performed by humans, androids, and robots: an EMG study |
Q37288030 | Observation-based learning for brain-machine interfaces |
Q27314949 | Observing a movement correction during walking affects evoked responses but not unperturbed walking |
Q27333141 | One step ahead: The perceived kinematics of others' actions are biased toward expected goals |
Q47845538 | One wouldn't expect an expert bowler to hit only two pins: Hierarchical predictive processing of agent-caused events |
Q36060759 | Online prediction of others' actions: the contribution of the target object, action context and movement kinematics |
Q36314894 | Overt orienting of spatial attention and corticospinal excitability during action observation are unrelated |
Q30572040 | Oxytocin improves synchronisation in leader-follower interaction |
Q58795202 | Perceptual teleology: expectations of action efficiency bias social perception |
Q46191989 | Physiologically inspired model for the visual recognition of transitive hand actions. |
Q27342878 | Playing charades in the fMRI: are mirror and/or mentalizing areas involved in gestural communication? |
Q46233670 | Predicting others' intention involves motor resonance: EMG evidence from 6- and 9-month-old infants. |
Q91669553 | Prediction and Mismatch Negativity Responses Reflect Impairments in Action Semantic Processing in Adults With Autism Spectrum Disorders |
Q48520089 | Prediction of human actions: expertise and task-related effects on neural activation of the action observation network. |
Q30394539 | Prediction, Bayesian inference and feedback in speech recognition. |
Q30480508 | Prediction, cognition and the brain |
Q45952499 | Predictive Mechanisms Are Not Involved the Same Way during Human-Human vs. Human-Machine Interactions: A Review. |
Q41643466 | Predictive action tracking without motor experience in 8-month-old infants. |
Q40612864 | Predictive coding |
Q43638338 | Predictive coding as a model of biased competition in visual attention. |
Q47764132 | Predictive coding as a model of cognition |
Q48283600 | Predictive coding as a model of response properties in cortical area V1. |
Q48102773 | Predictive coding in auditory perception: challenges and unresolved questions |
Q89583399 | Predictive context biases binocular rivalry in children and adults with no positive relation to two measures of social cognition |
Q46701393 | Predictive representation of other people's actions in joint action planning: an EEG study. |
Q58368325 | Predictive social perception: Towards a unifying framework from action observation to person knowledge |
Q52599711 | Real-Time Prediction of Observed Action Requires Integrity of the Dorsal Premotor Cortex: Evidence From Repetitive Transcranial Magnetic Stimulation. |
Q49304329 | Reduced Mu Power in Response to Unusual Actions Is Context-Dependent in 1-Year-Olds. |
Q30558329 | Relating anatomical and social connectivity: white matter microstructure predicts emotional empathy. |
Q37320033 | Representation, inference, and transcendent encoding in neurocognitive networks of the human brain |
Q48749372 | Representing others' actions: the role of expertise in the aging mind. |
Q46779480 | Robotic movement preferentially engages the action observation network |
Q38408678 | Schizophrenia, Subjectivity, and Mindreading |
Q90026121 | Seeing the Unexpected: How Brains Read Communicative Intent through Kinematics |
Q57003013 | Self-evidencing babies: Commentary on “Mentalizing homeostasis: The social origins of interoceptive inference” by Fotopoulou & Tsakiris |
Q26781274 | Self-other integration and distinction in schizophrenia: A theoretical analysis and a review of the evidence |
Q36322801 | Sensitivity of alpha and beta oscillations to sensorimotor characteristics of action: an EEG study of action production and gesture observation |
Q33889903 | Sensitivity to differences in the motor origin of drawings: from human to robot |
Q37660854 | Sensorimotor Coarticulation in the Execution and Recognition of Intentional Actions |
Q47558597 | Shared Mechanisms in the Estimation of Self-Generated Actions and the Prediction of Other's Actions by Humans. |
Q40559992 | Shared and Distinct Neuroanatomic Regions Critical for Tool-related Action Production and Recognition: Evidence from 131 Left-hemisphere Stroke Patients |
Q101121000 | Shared functional connectivity between the dorso-medial and dorso-ventral streams in macaques |
Q48470146 | Simulating and predicting others' actions. |
Q39912404 | Simulating the future of actions in the human corticospinal system |
Q37833277 | Simulation during observation of human actions--theories, empirical studies, applications |
Q40116222 | Simultaneous learning and filtering without delusions: a Bayes-optimal combination of Predictive Inference and Adaptive Filtering |
Q58247729 | Social neuroscience: Brain, mind, and society |
Q37274148 | Somatosensory experiences with action modulate alpha and beta power during subsequent action observation |
Q37218519 | Spatiotemporal dynamics in understanding hand-object interactions |
Q83515898 | Spatiotemporal tuning of the facilitation of biological motion perception by concurrent motor execution |
Q27302128 | Spontaneous prediction error generation in schizophrenia |
Q57516255 | Staying responsive to the world: Modality-specific and -nonspecific contributions to speeded auditory, tactile, and visual stimulus detection |
Q24634219 | Stone tools, language and the brain in human evolution |
Q34263320 | Surprised at all the entropy: hippocampal, caudate and midbrain contributions to learning from prediction errors |
Q86783071 | Surprisingly correct: unexpectedness of observed actions activates the medial prefrontal cortex |
Q47316366 | Technology, expertise and social cognition in human evolution |
Q30449868 | Temporal context in speech processing and attentional stream selection: a behavioral and neural perspective |
Q30822640 | Testing the relationship between mimicry, trust and rapport in virtual reality conversations |
Q42373396 | The Actions and Feelings Questionnaire in Autism and Typically Developed Adults |
Q60955010 | The Developmental Origins of the Social Brain: Empathy, Morality, and Justice |
Q57170935 | The Object Orientation Effect in Exocentric Distances |
Q36081767 | The Things You Do: Internal Models of Others' Expected Behaviour Guide Action Observation |
Q30578454 | The affordance-matching hypothesis: how objects guide action understanding and prediction. |
Q48595451 | The context-object-manipulation triad: cross talk during action perception revealed by fMRI. |
Q38126292 | The contribution of brain sub-cortical loops in the expression and acquisition of action understanding abilities |
Q47146008 | The development of spontaneous facial responses to others' emotions in infancy: An EMG study |
Q38202886 | The developmental cognitive neuroscience of action: semantics, motor resonance and social processing. |
Q33563533 | The effect of action experience on sensorimotor EEG rhythms during action observation |
Q37000069 | The effect of perceptual expectation on repetition suppression to faces is not modulated by variation in autistic traits |
Q35560211 | The eye in hand: predicting others' behavior by integrating multiple sources of information |
Q93577958 | The fantastic organ |
Q37972293 | The feeling of action tendencies: on the emotional regulation of goal-directed behavior |
Q38082241 | The free-energy self: a predictive coding account of self-recognition. |
Q58560651 | The functions of imitative behaviour in humans |
Q92210196 | The hierarchically mechanistic mind: an evolutionary systems theory of the human brain, cognition, and behavior |
Q38690168 | The iconography of mourning and its neural correlates: A functional neuroimaging study |
Q39684806 | The influence of visual training on predicting complex action sequences |
Q47632537 | The intentional stance as structure learning: a computational perspective on mindreading |
Q89738669 | The last chance to pass the ball: investigating the role of temporal expectation and motor resonance in processing temporal errors in motor actions |
Q38431016 | The left inferior parietal lobe represents stored hand-postures for object use and action prediction |
Q90714757 | The neural and computational systems of social learning |
Q34588184 | The predictive mirror: interactions of mirror and affordance processes during action observation. |
Q45994623 | The role of appearance and motion in action prediction. |
Q47261901 | The role of head and hand movements for infants' predictions of others' actions |
Q41772317 | The role of interoceptive inference in theory of mind |
Q38015353 | The role of prediction in social neuroscience |
Q47578978 | The second agent effect: Interpersonal predictive coding in people with schizophrenia. |
Q27324022 | The shaping of social perception by stimulus and knowledge cues to human animacy |
Q58617071 | The social brain automatically predicts others' future mental states |
Q88028086 | The social neuroscience of mentalizing: challenges and recommendations |
Q37371052 | The timing and precision of action prediction in the aging brain |
Q41778572 | The visible face of intention: why kinematics matters |
Q53118025 | Time perception during apparent biological motion reflects subjective speed of movement, not objective rate of visual stimulation. |
Q89126916 | Timing of grip and goal activation during action perception: a priming study |
Q41922850 | Toward a Unified Social Motor Cognition Theory of Understanding Mirror-Touch Synaesthesia |
Q38389812 | Toward a Unified Sub-symbolic Computational Theory of Cognition |
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