scholarly article | Q13442814 |
P818 | arXiv ID | 1811.06458 |
P356 | DOI | 10.1016/J.VISRES.2018.10.006 |
P698 | PubMed publication ID | 30408434 |
P50 | author | David Berga | Q92925241 |
P2093 | author name string | Xavier Otazu | |
Víctor Leborán | |||
Xosé M Pardo | |||
Xosé R Fdez-Vidal | |||
P2860 | cites work | Control of goal-directed and stimulus-driven attention in the brain | Q27860553 |
Two mechanisms of vision in primates | Q28248829 | ||
A feature-integration theory of attention | Q28281952 | ||
Top-down search strategies cannot override attentional capture | Q80023193 | ||
The central fixation bias in scene viewing: selecting an optimal viewing position independently of motor biases and image feature distributions | Q80544819 | ||
The long and the short of it: spatial statistics at fixation vary with saccade amplitude and task | Q82516633 | ||
Temporal synchrony is an effective cue for grouping and segmentation in the absence of form cues | Q88459046 | ||
Visual search and stimulus similarity. | Q52245806 | ||
The effect of frontal eye field and superior colliculus lesions on saccadic latencies in the rhesus monkey. | Q52257030 | ||
Search asymmetry: a diagnostic for preattentive processing of separable features. | Q52265880 | ||
Discrimination of orientation-defined texture edges. | Q52328566 | ||
Chromaticity diagram showing cone excitation by stimuli of equal luminance | Q52773375 | ||
Pre-attentive segmentation in the primary visual cortex. | Q52919454 | ||
The psychophysics of visual search. | Q52921506 | ||
Visual correlates of fixation selection: effects of scale and time. | Q52971391 | ||
Novel visual illusions related to Vasarely's 'nested squares' show that corner salience varies with corner angle. | Q53294438 | ||
Guided Search 2.0 A revised model of visual search | Q55982827 | ||
The relationship between the locations of spatial features and those of fixations made during visual examination of briefly presented images | Q56698466 | ||
Guided Search 4.0: A guided search model that does not require memory for rejected distractors | Q57743011 | ||
Preattentive Object Files: Shapeless Bundles of Basic Features | Q57743041 | ||
“Effortless” texture segmentation and “parallel” visual search are not the same thing | Q57743063 | ||
Saccadic target selection as a function of time | Q60038009 | ||
Attention in Visual Search: Distinguishing Four Causes of a Set-Size Effect | Q64357060 | ||
Visual conspicuity, visual search and fixation tendencies of the eye | Q67566811 | ||
Texture segmentation and pop-out from orientation contrast | Q67923587 | ||
The time course of picture viewing | Q68815533 | ||
Sensitivity for structure gradient in texture discrimination tasks | Q69790759 | ||
Detection versus discrimination of visual orientation | Q70783520 | ||
The conspicuousness of orientation and motion contrast | Q72248299 | ||
Interactions between achromatic and chromatic mechanisms in visual search | Q73312055 | ||
Object grouping contingent upon background | Q73472058 | ||
Salience from feature contrast: additivity across dimensions | Q73731683 | ||
Global contour saliency and local colinear interactions | Q78495157 | ||
Contextual cueing: implicit learning and memory of visual context guides spatial attention. | Q52185759 | ||
Preemption effects in visual search: evidence for low-level grouping. | Q52211252 | ||
Overriding stimulus-driven attentional capture. | Q52217016 | ||
The role of features in preattentive vision: comparison of orientation, motion and color cues. | Q52223210 | ||
Visual attention and perceptual grouping. | Q52230184 | ||
Orienting of attention | Q28282162 | ||
Neural mechanisms of selective visual attention | Q28292891 | ||
Familiarity and visual change detection | Q28293382 | ||
A model of saliency-based visual attention for rapid scene analysis | Q29028437 | ||
Two Visual Pathways in Primates Based on Sampling of Space: Exploitation and Exploration of Visual Information. | Q30368407 | ||
Eye movements: the past 25 years | Q30466293 | ||
Superior colliculus neurons encode a visual saliency map during free viewing of natural dynamic video | Q30837089 | ||
Primary Visual Cortex as a Saliency Map: A Parameter-Free Prediction and Its Test by Behavioral Data | Q31002057 | ||
Psychophysical tests of the hypothesis of a bottom-up saliency map in primary visual cortex | Q33281286 | ||
Size matters: large objects capture attention in visual search | Q33784468 | ||
Reaction time distributions constrain models of visual search | Q33937234 | ||
The distinct modes of vision offered by feedforward and recurrent processing | Q34080505 | ||
Feature analysis in early vision: Evidence from search asymmetries | Q34175755 | ||
Visual feature integration theory: past, present, and future | Q34228043 | ||
Quantitative analysis of cat retinal ganglion cell response to visual stimuli | Q34240997 | ||
Contrast dependence of smooth pursuit eye movements following a saccade to superimposed targets | Q34282185 | ||
Contour integration by the human visual system: evidence for a local "association field". | Q34361427 | ||
Visual search and attention: a signal detection theory approach | Q34362071 | ||
How does our search engine "see" the world? The case of amodal completion | Q34959085 | ||
Adaptation and visual salience | Q35630411 | ||
Contour integration and cortical processing | Q35650483 | ||
Is contrast just another feature for visual selective attention? | Q35739158 | ||
What attributes guide the deployment of visual attention and how do they do it? | Q35777648 | ||
New insights into ambient and focal visual fixations using an automatic classification algorithm | Q36362036 | ||
Reconsidering Yarbus: a failure to predict observers' task from eye movement patterns | Q36479649 | ||
Salience, relevance, and firing: a priority map for target selection | Q36537303 | ||
Semantic guidance of eye movements in real-world scenes | Q37318307 | ||
Peripheral vision and pattern recognition: a review. | Q37972275 | ||
State-of-the-art in visual attention modeling | Q38001279 | ||
Deep hierarchies in the primate visual cortex: what can we learn for computer vision? | Q38115910 | ||
Reconciling Saliency and Object Center-Bias Hypotheses in Explaining Free-Viewing Fixations | Q38402251 | ||
Object-scene inconsistencies do not capture gaze: evidence from the flash-preview moving-window paradigm | Q38490601 | ||
A Model of the Superior Colliculus Predicts Fixation Locations during Scene Viewing and Visual Search. | Q38776075 | ||
Defending Yarbus: eye movements reveal observers' task | Q39223543 | ||
Perceived roughness of 1/f(beta) noise surfaces. | Q39317502 | ||
Quantitative analysis of human-model agreement in visual saliency modeling: a comparative study | Q39573555 | ||
Dynamic Whitening Saliency. | Q39759938 | ||
Influence of local scene color on fixation position in visual search | Q40181985 | ||
Attention speeds processing across eccentricity: feature and conjunction searches | Q40604625 | ||
Neural mechanisms of form and motion processing in the primate visual system | Q40679189 | ||
Visual attention mediated by biased competition in extrastriate visual cortex | Q40850860 | ||
Towards the quantitative evaluation of visual attention models. | Q40964658 | ||
The Influence of Endogenous and Exogenous Spatial Attention on Decision Confidence. | Q41125657 | ||
Visual attention: control, representation, and time course | Q41359493 | ||
On computational modeling of visual saliency: Examining what's right, and what's left | Q41457786 | ||
A saliency-based search mechanism for overt and covert shifts of visual attention | Q41733083 | ||
Task-related modulation of visual cortex | Q41740792 | ||
Fixations on objects in natural scenes: dissociating importance from salience | Q43085909 | ||
How do attention and adaptation affect contrast sensitivity? | Q43190702 | ||
Initiation of smooth pursuit in humans. Dependence on target saliency | Q43802660 | ||
Methods for comparing scanpaths and saliency maps: strengths and weaknesses | Q44212367 | ||
The effect of background color on asymmetries in color search. | Q44845851 | ||
Object-based implicit learning in visual search: perceptual segmentation constrains contextual cueing | Q45069344 | ||
Predictive coding as a model of the V1 saliency map hypothesis. | Q45950868 | ||
Color in visual search. | Q45977999 | ||
The effects of contextual scenes on the identification of objects. | Q46022652 | ||
Analysis of microsaccades and pupil dilation reveals a common decisional origin during visual search | Q46135964 | ||
Transient pupil response is modulated by contrast-based saliency. | Q46183243 | ||
Visual saliency computations: mechanisms, constraints, and the effect of feedback | Q46297244 | ||
What stands out in a scene? A study of human explicit saliency judgment | Q46328996 | ||
Modeling the influence of task on attention | Q46565163 | ||
Size scaling and spatial factors in visual attention. | Q47301405 | ||
Task and context determine where you look | Q47569007 | ||
Scene content selected by active vision | Q48334999 | ||
Serial and parallel processing of visual feature conjunctions | Q48365624 | ||
Modeling the role of salience in the allocation of overt visual attention | Q48515869 | ||
Features and Objects: The Fourteenth Bartlett Memorial Lecture | Q48527901 | ||
The spatial relationship between scanning saccades and express saccades. | Q48592585 | ||
Corner salience varies linearly with corner angle during flicker-augmented contrast: a general principle of corner perception based on Vasarely's artworks | Q48605221 | ||
Gaze capture by eye-of-origin singletons: interdependence with awareness | Q48654677 | ||
Saccadic model of eye movements for free-viewing condition | Q48682646 | ||
Context influences contour integration. | Q48712141 | ||
Eye movements selective for spatial frequency and orientation during active visual search | Q48837362 | ||
Perceptual grouping by similarity and proximity: experimental results can be predicted by intensity autocorrelations | Q49233494 | ||
Temporal evolution of the central fixation bias in scene viewing | Q50221186 | ||
Symmetries and asymmetries in chromatic discrimination | Q50223984 | ||
Orientation categories used in guidance of attention in visual search can differ in strength. | Q50522884 | ||
Ambient and focal visual processing of naturalistic activity. | Q50526285 | ||
Modeling visual search on a rough surface. | Q50583118 | ||
Deriving an appropriate baseline for describing fixation behaviour. | Q50611511 | ||
Scanpath estimation based on foveated image saliency. | Q50620385 | ||
Visual search for a target against a 1/f(beta) continuous textured background. | Q50627216 | ||
SUN: A Bayesian framework for saliency using natural statistics. | Q51856331 | ||
Viewing task influences eye movement control during active scene perception. | Q51890387 | ||
Texture segregation by visual cortex: perceptual grouping, attention, and learning. | Q51904982 | ||
Priming in visual search: separating the effects of target repetition, distractor repetition and role-reversal. | Q51960842 | ||
Visual search has no memory. | Q52037961 | ||
Asymmetries in visual search: an introduction. | Q52133778 | ||
Early completion of occluded objects. | Q52182691 | ||
P407 | language of work or name | English | Q1860 |
P921 | main subject | attention | Q6501338 |
P304 | page(s) | 60-79 | |
P577 | publication date | 2018-11-17 | |
P1433 | published in | Vision Research | Q1307852 |
P1476 | title | Psychophysical evaluation of individual low-level feature influences on visual attention | |
P478 | volume | 154 |
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