| P2093 | author name string | Charles H Shea | |
| | Deanna M Kennedy | |
| | John J Buchanan | |
| P2860 | cites work | Dynamic pattern generation in behavioral and neural systems | Q28294684 |
| | A theoretical model of phase transitions in human hand movements | Q28307897 |
| | Internal vs external generation of movements: differential neural pathways involved in bimanual coordination performed in the presence or absence of augmented visual feedback | Q29999234 |
| | Music, the brain and Ravel | Q30417961 |
| | Nonequilibrium phase transitions in coordinated biological motion: critical fluctuations | Q30458030 |
| | The learning of 90° continuous relative phase with and without Lissajous feedback: External and internally generated bimanual coordination | Q30458058 |
| | Learning a coordinated rhythmic movement with task-appropriate coordination feedback | Q30458796 |
| | Bimanual 1:1 with 90° continuous relative phase: difficult or easy! | Q30458801 |
| | Perceptual coupling in rhythmic movement coordination: stable perception leads to stable action | Q30458802 |
| | Impossible is nothing: 5:3 and 4:3 multi-frequency bimanual coordination | Q30458803 |
| | The role of auditory and visual models in the production of bimanual tapping patterns | Q30458808 |
| | A guide to performing difficult bimanual coordination tasks: just follow the yellow brick road | Q30458809 |
| | Two hands, one brain: cognitive neuroscience of bimanual skill | Q30462780 |
| | Knowledge of results and motor learning: A review and critical reappraisal | Q30463713 |
| | Phase transitions and critical fluctuations in the visual coordination of rhythmic movements between people | Q30463721 |
| | A closed-loop theory of motor learning | Q30464178 |
| | Spatial Conceptual Influences on the Coordination of Bimanual Actions: When a Dual Task Becomes a Single Task | Q30464278 |
| | Effects of an Auditory Model on the Learning of Relative and Absolute Timing | Q30464281 |
| | Continuous Concurrent Feedback Degrades Skill Learning: Implications for Training and Simulation | Q30476917 |
| | Augmented visual, auditory, haptic, and multimodal feedback in motor learning: A review | Q30477351 |
| | Temporal rescaling of sample and complex rations in rhythmic tapping | Q30537401 |
| | The influence of perceptual and motor factors on bimanual coordination in a polyrhythmic tapping task | Q30537798 |
| | Part and whole perceptual-motor practice of a polyrhythm | Q30540258 |
| | Rehabilitation of brain damage: brain plasticity and principles of guided recovery | Q33733984 |
| | Governing coordination: behavioural principles and neural correlates. | Q35580107 |
| | The temporal representation of in-phase and anti-phase movements. | Q35866070 |
| | Social coordination dynamics: measuring human bonding | Q36301597 |
| | The generation of two isochronous sequences in parallel | Q36620337 |
| | Brain areas involved in interlimb coordination: a distributed network. | Q39222685 |
| | Environmentally-specified patterns of movement coordination in normal and split-brain subjects | Q39742453 |
| | Working memory | Q67746071 |
| | Divided attention: evidence for coactivation with redundant signals | Q70368533 |
| | On the space-time structure of human interlimb co-ordination | Q70894750 |
| | Phase transitions and critical behavior in human bimanual coordination | Q71415866 |
| | The cerebral basis of lateral asymmetries in attention | Q71509317 |
| | Temporal coordination of alternative and simultaneous aiming movements of constrained timing structure | Q72416874 |
| | Dynamics of 1:2 Coordination: Generalizing Relative Phase to n:m Rhythms | Q73438719 |
| | Dynamics of 1:2 Coordination: Sources of Symmetry Breaking | Q73438722 |
| | Interaction of directional, neuromuscular and egocentric constraints on the stability of preferred bimanual coordination patterns | Q73927646 |
| | Haptic information stabilizes and destabilizes coordination dynamics | Q73932107 |
| | Visual perception of mean relative phase and phase variability | Q73963249 |
| | Visual perception of the relative phasing of human limb movements | Q74630578 |
| | Intentional switching between patterns of bimanual coordination depends on the intrinsic dynamics of the patterns | Q79999592 |
| | A quantitative approach to understanding the formation and change of coordinated movement patterns | Q80063496 |
| | Do feedback processing, output variability, and spatial complexity account for manual asymmetries? | Q80063504 |
| | Manual asymmetries: in defense of a multifactorial account | Q80063507 |
| | Amplitude scaling in a bimanual circle-drawing task: pattern switching and end-effector variability | Q80357305 |
| | Coordination dynamics and attentional costs of continuous and discontinuous bimanual circle drawing movements | Q80565100 |
| | Attentional costs of coordinating homologous and non-homologous limbs | Q80996872 |
| | Modelling relative motion to facilitate intra-limb coordination | Q81058253 |
| | Understanding how speed affects performance of polyrhythms: transferring control as speed increases | Q81252131 |
| | The interaction of tactile information and movement amplitude in a multijoint bimanual circle-tracing task: phase transitions and loss of stability | Q81286171 |
| | An external focus of attention enhances golf shot accuracy in beginners and experts | Q81451576 |
| | Changes in brain activation during the acquisition of a multifrequency bimanual coordination task: from the cognitive stage to advanced levels of automaticity | Q81694520 |
| | Neural pathways mediating bilateral interactions between the upper limbs | Q81766516 |
| | Interaction of neuromuscular, spatial and visual constraints on hand-foot coordination dynamics | Q81837045 |
| | Bimanual Fitts' tasks: Kelso, Southard, and Goodman, 1979 revisited | Q82297517 |
| | Increasingly complex bimanual multi-frequency coordination patterns are equally easy to perform with on-line relative velocity feedback | Q82693374 |
| | Multisensory gain within and across hemispaces in simple and choice reaction time paradigms | Q82904753 |
| | One-to-one and polyrhythmic temporal coordination in bimanual circle tracing | Q83367012 |
| | Scaling movement amplitude: adaptation of timing and amplitude control in a bimanual task | Q83659876 |
| | Perceptual and attentional influences on continuous 2:1 and 3:2 multi-frequency bimanual coordination | Q84703194 |
| | Reacting while moving: influence of right limb movement on left limb reaction | Q87110615 |
| | Visual multifrequency entrainment: can 1:2, 2:3, and 3:4 coordination occur spontaneously? | Q87678978 |
| | AGE-RELATED DEFICITS IN MOTOR LEARNING AND DIFFERENCES IN FEEDBACK PROCESSING DURING THE PRODUCTION OF A BIMANUAL COORDINATION PATTERN. | Q52186393 |
| | Relative Phase Alterations During Bimanual Skill Acquisition. | Q52206047 |
| | Frequency-induced phase transitions in bimanual tapping | Q52206382 |
| | Synchronizing actions with events: the role of sensory information. | Q52209075 |
| | Performance on trials without knowledge results (KR) in reduced relative frequency presentations of KR. | Q52231185 |
| | On the role of knowledge of results in motor learning: exploring the guidance hypothesis. | Q52241086 |
| | Two coupled oscillators as a model for the coordinated finger tapping by both hands. | Q52299730 |
| | Variable frequency of knowledge of results and the learning of a simple skill. | Q52362452 |
| | Symmetry, broken symmetry, and handedness in bimanual coordination dynamics. | Q52419459 |
| | A stochastic theory of phase transitions in human hand movement. | Q52429699 |
| | Relative phase destabilization during interlimb coordination: the disruptive role of kinesthetic afferences induced by passive movement. | Q52507187 |
| | Simulating a neural cross-talk model for between-hand interference during bimanual circle drawing. | Q52536812 |
| | Perceptual basis of bimanual coordination. | Q52935672 |
| | Laterally focused attention modulates asymmetric coupling in rhythmic interlimb coordination. | Q53011160 |
| | Visual information gain and task asymmetry interact in bimanual force coordination and control. | Q53420717 |
| | Bimanual force control: cooperation and interference? | Q53669017 |
| | fMRI study of bimanual coordination | Q60624950 |
| | On the coordination of two-handed movements | Q66986007 |
| | On the Nature of Human Interlimb Coordination | Q41466283 |
| | Order parameters for the neural organization of single, multijoint limb movement patterns | Q42033380 |
| | Differential control of in-phase and anti-phase coupling of rhythmic movements of ipsilateral hand and foot | Q43489959 |
| | Can people tap concurrent bimanual rhythms independently? | Q44269705 |
| | The acquisition of bimanual coordination is mediated by anisotropic coupling between the hands. | Q44350173 |
| | Instabilities during antiphase bimanual movements: are ipsilateral pathways involved? | Q44502956 |
| | Bimanual interference associated with the selection of target locations. | Q46001302 |
| | Callosotomy patients exhibit temporal uncoupling during continuous bimanual movements. | Q46004512 |
| | Using scanning trials to assess intrinsic coordination dynamics. | Q46018081 |
| | The learning advantages of an external focus of attention in golf | Q46105494 |
| | Moving to directly cued locations abolishes spatial interference during bimanual actions | Q46146622 |
| | Consistently modeling the same movement strategy is more important than model skill level in observational learning contexts | Q46178744 |
| | Human movement coordination implicates relative direction as the information for relative phase | Q46491640 |
| | Goal-selection and movement-related conflict during bimanual reaching movements. | Q46884888 |
| | Bimanual coordination during rhythmic movements in the absence of somatosensory feedback. | Q46933440 |
| | Learning a single limb multijoint coordination pattern: the impact of a mechanical constraint on the coordination dynamics of learning and transfer | Q48109365 |
| | Multisensory cues improve sensorimotor synchronisation | Q48150123 |
| | Multivariate time-frequency analysis of electromagnetic brain activity during bimanual motor learning | Q48186939 |
| | Observational practice benefits are limited to perceptual improvements in the acquisition of a novel coordination skill | Q48188163 |
| | The role of ventral medial wall motor areas in bimanual co-ordination. A combined lesion and activation study | Q48267589 |
| | Amplitude differences, spatial assimilation, and integrated feedback in bimanual coordination | Q48347149 |
| | Posturally induced transitions in rhythmic multijoint limb movements | Q48374219 |
| | The coalition of constraints during coordination of the ipsilateral and heterolateral limbs | Q48479651 |
| | Distinguishing between the effects of frequency and amplitude on interlimb coupling in tapping a 2:3 polyrhythm | Q48488715 |
| | Coordination dynamics of learning and transfer across different effector systems | Q48504789 |
| | Rhythmical bimanual force production: homologous and non-homologous muscles | Q48522255 |
| | Overcoming the guidance effect in motor skill learning: feedback all the time can be beneficial | Q48553314 |
| | Learning an environment-actor coordination skill: visuomotor transformation and coherency of perceptual structure | Q48601442 |
| | Neural interactions between motor cortical hemispheres during bimanual and unimanual arm movements | Q48680820 |
| | Proprioceptive regulation of interlimb behavior: interference between passive movement and active coordination dynamics | Q48726207 |
| | Possible contribution of the anterior forebrain commissures to bilateral motor coordination | Q48728313 |
| | Models of hemispheric specialization | Q48808000 |
| | The influence of augmented feedback and prior learning on the acquisition of a new bimanual coordination pattern | Q48933173 |
| | Unraveling interlimb interactions underlying bimanual coordination | Q48948941 |
| | Observational practice of relative but not absolute motion features in a single-limb multi-joint coordination task | Q49012128 |
| | Visual-spatial and anatomical constraints interact in a bimanual coordination task with transformed visual feedback | Q49045278 |
| | Perceptual influences on Fitts' law. | Q49048464 |
| | Generalization of action knowledge following observational learning. | Q51026010 |
| | Interlimb coupling strength scales with movement amplitude. | Q51888176 |
| | Specificity in practice benefits learning in novice models and variability in demonstration benefits observational practice. | Q51890680 |
| | Auditory model: effects on learning under blocked and random practice schedules. | Q51941625 |
| | Specificity of practice: interaction between concurrent sensory information and terminal feedback. | Q51952970 |
| | Movement-related sensory feedback mediates the learning of a new bimanual relative phase pattern. | Q51974412 |
| | Dynamics of learning and transfer of muscular and spatial relative phase in bimanual coordination: evidence for abstract directional codes. | Q51995996 |
| | Intermanual interactions related to movement amplitudes and endpoint locations. | Q52023606 |
| | Evolution of behavioral attractors with learning: nonequilibrium phase transitions | Q52043859 |
| | Do muscles matter for coordinated action? | Q52089376 |
| | The role of video in facilitating perception and action of a novel coordination movement. | Q52102657 |
| | Increasing the distance of an external focus of attention enhances learning. | Q52109077 |
| | Auditory model enhances relative-timing learning. | Q52115446 |
| P433 | issue | 2 | |
| P304 | page(s) | 361-386 | |
| P577 | publication date | 2015-08-18 | |
| P1433 | published in | Psychonomic Bulletin and Review | Q15763410 |
| P1476 | title | Perception and action influences on discrete and reciprocal bimanual coordination | |
| P478 | volume | 23 | |