| P2093 | author name string | Thierry Hasbroucq | |
| | Franck Vidal | |
| | Cédric Meckler | |
| P2860 | cites work | Conflict monitoring and cognitive control | Q28211132 |
| | A feature-integration theory of attention | Q28281952 |
| | To musicians, the message is in the meter pre-attentive neuronal responses to incongruent rhythm are left-lateralized in musicians. | Q30349922 |
| | Roles of proprioceptive input in the programming of arm trajectories | Q30464715 |
| | Multiple resources and performance prediction | Q30465103 |
| | Segregation of form, color, movement, and depth: anatomy, physiology, and perception | Q34172282 |
| | Neuronal population coding of movement direction | Q34189387 |
| | Stimulus information as a determinant of reaction time | Q34232255 |
| | Tactile stimulations and wheel rotation responses: toward augmented lane departure warning systems | Q34272614 |
| | The binding problem | Q34390252 |
| | View from the top: hierarchies and reverse hierarchies in the visual system | Q35017703 |
| | Binding, spatial attention and perceptual awareness | Q35058494 |
| | Post-error slowing in sequential action: an aging study. | Q37589629 |
| | The neural basis of the speed-accuracy tradeoff | Q37612378 |
| | Dimensional overlap: cognitive basis for stimulus-response compatibility--a model and taxonomy | Q37921814 |
| | Flexible cognitive resources: competitive content maps for attention and memory | Q38083442 |
| | The influence of irrelevant location information on performance: A review of the Simon and spatial Stroop effects | Q38160800 |
| | The role of long-term-memory and short-term-memory links in the Simon effect | Q38445165 |
| | Testing theories of post-error slowing | Q38480781 |
| | The neural basis of human error processing: reinforcement learning, dopamine, and the error-related negativity | Q39513255 |
| | How does temporal preparation speed up response implementation in choice tasks? Evidence for an early cortical activation | Q61465541 |
| | CNV, stretch reflex and reaction time correlates of preparation for movement direction and force | Q67662838 |
| | Event-related brain potentials and error-related processing: an analysis of incorrect responses to go and no-go stimuli | Q70923002 |
| | Movement-related potentials associated with bilateral simultaneous and unilateral movements recorded from human supplementary motor area | Q71564323 |
| | Slowness and age: speed-accuracy mechanisms | Q72029196 |
| | Impairments of reaching movements in patients without proprioception. I. Spatial errors | Q72150804 |
| | Is the 'error negativity' specific to errors? | Q73472995 |
| | Changes in spinal excitability during choice reaction time: the H reflex as a probe of information transmission | Q73909721 |
| | Naïve and experienced judgments of stimulus-response compatibility: implications for interface design | Q78850304 |
| | Control over speeded actions: a common processing locus for micro- and macro-trade-offs? | Q79921809 |
| | Planning of rapid aiming movements and the contingent negative variation: are movement duration and extent specified independently? | Q84000728 |
| | Naive judgements of stimulus-response compatibility | Q84801377 |
| | Development of state estimation explains improvements in sensorimotor performance across childhood | Q39646473 |
| | Multiple resources and mental workload | Q40061665 |
| | Movement chunking during sequence learning is a dopamine-dependant process: a study conducted in Parkinson's disease | Q42948756 |
| | Visually induced signal-locked neuronal activity changes in precentral motor areas of the monkey: hierarchical progression of signal processing | Q43911899 |
| | A transcranial magnetic stimulation study of information processing in the motor cortex: relationship between the silent period and the reaction time delay | Q44125847 |
| | Post-error slowing: an orienting account | Q44156542 |
| | Stimulus-response compatibility and the Simon effect: Toward a conceptual clarification | Q45074151 |
| | Response programming in simple and choice reactions | Q46590784 |
| | The nature of unilateral motor commands in between-hand choice tasks as revealed by surface Laplacian estimation | Q47295826 |
| | On-line executive control: an electromyographic study | Q47300346 |
| | The dual nature of time preparation: neural activation and suppression revealed by transcranial magnetic stimulation of the motor cortex | Q48116547 |
| | The influence of time preparation on motor processes assessed by surface Laplacian estimation | Q48127867 |
| | The N-40: an electrophysiological marker of response selection | Q48142705 |
| | Orienting attention in time activates left intraparietal sulcus for both perceptual and motor task goals. | Q48144982 |
| | Top-down versus bottom-up control of attention in the prefrontal and posterior parietal cortices | Q48223630 |
| | Is there an optimal arm posture? Deterioration of finger localization precision and comfort sensation in extreme arm-joint postures | Q48223889 |
| | Chunking during human visuomotor sequence learning | Q48246363 |
| | Sequential adjustments before and after partial errors | Q48291879 |
| | Serial and parallel processing of visual feature conjunctions | Q48365624 |
| | Where and when to pay attention: the neural systems for directing attention to spatial locations and to time intervals as revealed by both PET and fMRI. | Q48395874 |
| | Perceiving visually presented objects: recognition, awareness, and modularity | Q48443848 |
| | A psychophysiological investigation of the continuous flow model of human information processing | Q48451143 |
| | Event-related brain potentials following incorrect feedback in a time-estimation task: evidence for a "generic" neural system for error detection | Q48611470 |
| | Effects of crossmodal divided attention on late ERP components. II. Error processing in choice reaction tasks | Q48717021 |
| | Motor sequence chunking is impaired by basal ganglia stroke | Q48721627 |
| | Dynamics of single neuron activity in monkey primary motor cortex related to sensorimotor transformation. | Q48764937 |
| | Eliminating the Simon effect by instruction | Q49066633 |
| | Further evidence for the role of mode-independent short-term associations in spatial Simon effects | Q49106206 |
| | An ERP study of cognitive architecture and the insertion of mental processes: Donders revisited. | Q51812909 |
| | Lifespan changes in motor activation and inhibition during choice reactions: a Laplacian ERP study. | Q51840940 |
| | Cross-modal re-mapping influences the Simon effect. | Q52013344 |
| | Reaction time methods in the study of motor programming: the precuing of hand, digit, and duration. | Q52082685 |
| | Executive control in the Simon effect: an electromyographic and distributional analysis. | Q52111588 |
| | Human movement initiation: specification of arm, direction, and extent. | Q52296529 |
| | Attention and the detection of signals. | Q52298241 |
| | The Time Course of Preparation* | Q52342364 |
| | Some effects of partial advance information on choice reaction with fixed or variable S-R mapping. | Q52345279 |
| | Cognitive aspects of information processing: III. Set for speed versus accuracy | Q52346233 |
| | Errors and error correction in choice-response tasks. | Q52347043 |
| | Programming the duration of a motor sequence: role of the primary and supplementary motor areas in man. | Q52357258 |
| | Pointing errors reflect biases in the perception of the initial hand position. | Q52903314 |
| | Motor inhibition and response expectancy: a Laplacian ERP study. | Q53073303 |
| | Action monitoring and medial frontal cortex: leading role of supplementary motor area. | Q53616279 |
| | Monkey primary motor and premotor cortex: single-cell activity related to prior information about direction and extent of an intended movement. | Q55059677 |
| | On the Rate of Gain of Information | Q55954294 |
| | A Neural System for Error Detection and Compensation | Q56019858 |
| | Scalar expectancy theory and Weber's law in animal timing | Q56269024 |
| | Controlled and automatic human information processing: II. Perceptual learning, automatic attending and a general theory | Q56481979 |
| | Neuronal Correlates of Pop-out in Cat Striate Cortex | Q60508450 |
| P407 | language of work or name | English | Q1860 |
| P921 | main subject | information processing | Q750843 |
| P304 | page(s) | 33 | |
| P577 | publication date | 2015-02-16 | |
| P1433 | published in | Frontiers in Psychology | Q2794477 |
| P1476 | title | Basics for sensorimotor information processing: some implications for learning | |
| P478 | volume | 6 | |