| scholarly article | Q13442814 |
| P50 | author | Edward K Vogel | Q91200855 |
| P2093 | author name string | Todd S Horowitz | |
| Trafton Drew | |||
| P2860 | cites work | The magical number 4 in short-term memory: a reconsideration of mental storage capacity | Q28213950 |
| Delineating the neural signatures of tracking spatial position and working memory during attentive tracking | Q35800510 | ||
| Tracking multiple targets with multifocal attention | Q36161730 | ||
| Eye movements during multiple object tracking: where do participants look? | Q36727165 | ||
| Neural measures of individual differences in selecting and tracking multiple moving objects | Q36943543 | ||
| Demand-based dynamic distribution of attention and monitoring of velocities during multiple-object tracking | Q37373648 | ||
| Neural measures of dynamic changes in attentive tracking load | Q37910918 | ||
| Visual learning in multiple-object tracking | Q38281291 | ||
| The role of location indexes in spatial perception: a sketch of the FINST spatial-index model | Q41316990 | ||
| Discrete fixed-resolution representations in visual working memory | Q41612607 | ||
| Feature binding in attentive tracking of distinct objects | Q41971564 | ||
| Spatial separation between targets constrains maintenance of attention on multiple objects | Q42051584 | ||
| Direction information in multiple object tracking is limited by a graded resource | Q42094394 | ||
| Effects of target enhancement and distractor suppression on multiple object tracking capacity | Q43275334 | ||
| Evidence against a speed limit in multiple-object tracking | Q46367278 | ||
| How many objects can you track? Evidence for a resource-limited attentive tracking mechanism | Q46903745 | ||
| Close encounters of the distracting kind: identifying the cause of visual tracking errors | Q48730638 | ||
| Tracking multiple objects is limited only by object spacing, not by speed, time, or capacity | Q48811406 | ||
| Tracking unique objects | Q48909216 | ||
| How do we track invisible objects? | Q48924894 | ||
| Is motion extrapolation employed in multiple object tracking? Tracking as a low-level, non-predictive function | Q48939441 | ||
| The mathematics of multiple object tracking: from proportions correct to number of objects tracked | Q48950297 | ||
| Tracking multiple independent targets: evidence for a parallel tracking mechanism. | Q48951758 | ||
| The spatial resolution of visual attention | Q49029201 | ||
| What is a visual object? Evidence from target merging in multiple object tracking | Q49044401 | ||
| Limits of attentive tracking reveal temporal properties of attention | Q49049215 | ||
| Tracking multiple items through occlusion: clues to visual objecthood | Q49085232 | ||
| Multielement visual tracking: attention and perceptual organization | Q49161539 | ||
| Exhausting attentional tracking resources with a single fast-moving object. | Q50670247 | ||
| The what-where trade-off in multiple-identity tracking. | Q50686205 | ||
| The role of "rescue saccades" in tracking objects through occlusions. | Q50690340 | ||
| Self-motion impairs multiple-object tracking. | Q50697673 | ||
| Dynamics of attention in depth: evidence from multi-element tracking. | Q50763696 | ||
| Neural measures reveal individual differences in controlling access to working memory. | Q51987005 | ||
| Electrophysiological measures of maintaining representations in visual working memory. | Q51992901 | ||
| Neural activity predicts individual differences in visual working memory capacity. | Q52001274 | ||
| P433 | issue | 2 | |
| P921 | main subject | electrophysiology | Q1154774 |
| P304 | page(s) | 213-223 | |
| P577 | publication date | 2012-11-07 | |
| P1433 | published in | Cognition | Q15749512 |
| P1476 | title | Swapping or dropping? Electrophysiological measures of difficulty during multiple object tracking | |
| P478 | volume | 126 |
| Q47422150 | All eyes on relevance: strategic allocation of attention as a result of feature-based task demands in multiple object tracking |
| Q46489148 | Attention Modulates Spatial Precision in Multiple-Object Tracking |
| Q36372033 | Brain activation of semantic category-based grouping in multiple identity tracking task. |
| Q44412092 | Can Limitations of Visuospatial Attention Be Circumvented? A Review |
| Q58767991 | Chasing Animals With Split Attention: Are Animals Prioritized in Visual Tracking? |
| Q36693560 | Commentary: Swapping or Dropping? Electrophysiological Measures of Difficulty during Multiple Object Tracking |
| Q57067507 | Influence of sports expertise level on attention in multiple object tracking |
| Q50615471 | Multiple-object tracking while driving: the multiple-vehicle tracking task. |
| Q38564469 | Selecting and tracking multiple objects |
| Q33565559 | Shared processing in multiple object tracking and visual working memory in the absence of response order and task order confounds |
| Q48715402 | Spatio-temporal patterns of brain activity distinguish strategies of multiple-object tracking. |
| Q39353592 | Studying visual attention using the multiple object tracking paradigm: A tutorial review |
| Q36848103 | The Categorical Distinction Between Targets and Distractors Facilitates Tracking in Multiple Identity Tracking Task |
| Q30367537 | The Dynamics and Neural Correlates of Audio-Visual Integration Capacity as Determined by Temporal Unpredictability, Proactive Interference, and SOA. |
| Q26775249 | The contralateral delay activity as a neural measure of visual working memory |
| Q33901442 | Understanding age-related reductions in visual working memory capacity: examining the stages of change detection |
| Q42943790 | Why do people appear not to extrapolate trajectories during multiple object tracking? A computational investigation |
Search more.