scholarly article | Q13442814 |
P2093 | author name string | Miguel P Eckstein | |
Brent R Beutter | |||
Leland S Stone | |||
P433 | issue | 7 | |
P304 | page(s) | 1341-1355 | |
P577 | publication date | 2003-07-01 | |
P1433 | published in | Journal of the Optical Society of America | Q6296174 |
P1476 | title | Saccadic and perceptual performance in visual search tasks. I. Contrast detection and discrimination | |
P478 | volume | 20 |
Q84889715 | Active search for multiple targets is inefficient |
Q46407596 | Attentional cues in real scenes, saccadic targeting, and Bayesian priors |
Q52145576 | Beyond the point of no return: effects of visual distractors on saccade amplitude and velocity. |
Q53053034 | Comparison of perceptual and motor decisions via confidence judgments and saccade curvature. |
Q90010171 | Concurrent evaluation of independently cued features during perceptual decisions and saccadic targeting in visual search |
Q35983085 | Dynamic integration of information about salience and value for saccadic eye movements. |
Q44538127 | Effects of prior information and reward on oculomotor and perceptual choices. |
Q27303001 | Efficient saccade planning requires time and clear choices |
Q27334490 | Evolution and Optimality of Similar Neural Mechanisms for Perception and Action during Search |
Q30565915 | Foveal analysis and peripheral selection during active visual sampling |
Q33769736 | Gambling in the visual periphery: a conjoint-measurement analysis of human ability to judge visual uncertainty |
Q37558886 | Guidance of visual attention by semantic information in real-world scenes |
Q47329467 | Influence of scene structure and content on visual search strategies. |
Q39945925 | Intrinsic position uncertainty explains detection and localization performance in peripheral vision |
Q79312375 | Limited flexibility in the filter underlying saccadic targeting |
Q89737665 | Measurement of the useful field of view for single slices of different imaging modalities and targets |
Q45962141 | Object detection through search with a foveated visual system. |
Q46033023 | Optimal and human eye movements to clustered low value cues to increase decision rewards during search. |
Q92287724 | Serial dependence in a simulated clinical visual search task |
Q46744392 | Similar neural representations of the target for saccades and perception during search. |
Q51856606 | Simple summation rule for optimal fixation selection in visual search. |
Q35601136 | Stop before you saccade: Looking into an artificial peripheral scotoma. |
Q41899821 | Testing a simplified method for measuring velocity integration in saccades using a manipulation of target contrast |
Q41995186 | The effect of linguistic and visual salience in visual world studies. |
Q80033756 | The spatio-temporal tuning of the mechanisms in the control of saccadic eye movements |
Q48716309 | The temporal impulse response underlying saccadic decisions. |
Q36982878 | There's Waldo! A Normalization Model of Visual Search Predicts Single-Trial Human Fixations in an Object Search Task |
Q40201531 | Time course of target recognition in visual search |
Q46056273 | Virtual evolution for visual search in natural images results in behavioral receptive fields with inhibitory surrounds |
Q37636955 | What do saliency models predict? |
Search more.