Your search keyword '"Burg E"' showing total 8 results

1. Shrinking Bouma's window: How to model crowding in dense displays.

Author

Bornet A, Doerig A, Herzog MH, Francis G, and Van der Burg E

Subjects

Algorithms, Computational Biology, Humans, Neural Networks, Computer, Crowding, Models, Biological, Psychophysics methods, Vision, Ocular physiology

Abstract

In crowding, perception of a target deteriorates in the presence of nearby flankers. Traditionally, it is thought that visual crowding obeys Bouma's law, i.e., all elements within a certain distance interfere with the target, and that adding more elements always leads to stronger crowding. Crowding is predominantly studied using sparse displays (a target surrounded by a few flankers). However, many studies have shown that this approach leads to wrong conclusions about human vision. Van der Burg and colleagues proposed a paradigm to measure crowding in dense displays using genetic algorithms. Displays were selected and combined over several generations to maximize human performance. In contrast to Bouma's law, only the target's nearest neighbours affected performance. Here, we tested various models to explain these results. We used the same genetic algorithm, but instead of selecting displays based on human performance we selected displays based on the model's outputs. We found that all models based on the traditional feedforward pooling framework of vision were unable to reproduce human behaviour. In contrast, all models involving a dedicated grouping stage explained the results successfully. We show how traditional models can be improved by adding a grouping stage., Competing Interests: The authors have declared that no competing interests exist.

Published

2021

2. Correction: Competing Distractors Facilitate Visual Search in Heterogeneous Displays.

Author

Kong G, Alais D, and Van der Burg E

Abstract

[This corrects the article DOI: 10.1371/journal.pone.0160914.].

Published

2017

3. Audiovisual Simultaneity Judgment and Rapid Recalibration throughout the Lifespan.

Author

Noel JP, De Niear M, Van der Burg E, and Wallace MT

Subjects

Acoustic Stimulation, Adolescent, Adult, Aged, Aged, 80 and over, Child, Female, Humans, Male, Middle Aged, Photic Stimulation, Young Adult, Auditory Perception, Judgment, Visual Perception

Abstract

Multisensory interactions are well established to convey an array of perceptual and behavioral benefits. One of the key features of multisensory interactions is the temporal structure of the stimuli combined. In an effort to better characterize how temporal factors influence multisensory interactions across the lifespan, we examined audiovisual simultaneity judgment and the degree of rapid recalibration to paired audiovisual stimuli (Flash-Beep and Speech) in a sample of 220 participants ranging from 7 to 86 years of age. Results demonstrate a surprisingly protracted developmental time-course for both audiovisual simultaneity judgment and rapid recalibration, with neither reaching maturity until well into adolescence. Interestingly, correlational analyses revealed that audiovisual simultaneity judgments (i.e., the size of the audiovisual temporal window of simultaneity) and rapid recalibration significantly co-varied as a function of age. Together, our results represent the most complete description of age-related changes in audiovisual simultaneity judgments to date, as well as being the first to describe changes in the degree of rapid recalibration as a function of age. We propose that the developmental time-course of rapid recalibration scaffolds the maturation of more durable audiovisual temporal representations., Competing Interests: The authors have declared that no competing interests exist.

Published

2016

4. Competing Distractors Facilitate Visual Search in Heterogeneous Displays.

Author

Kong G, Alais D, and Van der Burg E

Subjects

Adolescent, Adult, Algorithms, Color, Female, Humans, Male, Nontherapeutic Human Experimentation, Photic Stimulation methods, Young Adult, Attention physiology, Pattern Recognition, Visual physiology

Abstract

In the present study, we examine how observers search among complex displays. Participants were asked to search for a big red horizontal line among 119 distractor lines of various sizes, orientations and colours, leading to 36 different feature combinations. To understand how people search in such a heterogeneous display, we evolved the search display by using a genetic algorithm (Experiment 1). The best displays (i.e., displays corresponding to the fastest reaction times) were selected and combined to create new, evolved displays. Search times declined over generations. Results show that items sharing the same colour and orientation as the target disappeared over generations, implying they interfered with search, but items sharing the same colour and were 12.5° different in orientation only interfered if they were also the same size. Furthermore, and inconsistent with most dominant visual search theories, we found that non-red horizontal distractors increased over generations, indicating that these distractors facilitated visual search while participants were searching for a big red horizontally oriented target. In Experiments 2 and 3, we replicated these results using conventional, factorial experiments. Interestingly, in Experiment 4, we found that this facilitation effect was only present when the displays were very heterogeneous. While current models of visual search are able to successfully describe search in homogeneous displays, our results challenge the ability of these models to describe visual search in heterogeneous environments.

Published

2016

5. Touch influences visual perception with a tight orientation-tuning.

Author

van der Groen O, van der Burg E, Lunghi C, and Alais D

Subjects

Adult, Female, Humans, Male, Middle Aged, Photic Stimulation, Young Adult, Orientation, Touch, Visual Perception

Abstract

Stimuli from different sensory modalities are thought to be processed initially in distinct unisensory brain areas prior to convergence in multisensory areas. However, signals in one modality can influence the processing of signals from other modalities and recent studies suggest this cross-modal influence may occur early on, even in 'unisensory' areas. Some recent psychophysical studies have shown specific cross-modal effects between touch and vision during binocular rivalry, but these cannot completely rule out a response bias. To test for genuine cross-modal integration of haptic and visual signals, we investigated whether congruent haptic input could influence visual contrast sensitivity compared to incongruent haptic input in three psychophysical experiments using a two-interval, two-alternative forced-choice method to eliminate response bias. The initial experiment demonstrated that contrast thresholds for a visual grating were lower when exploring a haptic grating that shared the same orientation compared to an orthogonal orientation. Two subsequent experiments mapped the orientation and spatial frequency tunings for the congruent haptic facilitation of vision, finding a clear orientation tuning effect but not a spatial frequency tuning. In addition to an increased contrast sensitivity for iso-oriented visual-haptic gratings, we found a significant loss of sensitivity for orthogonally oriented visual-haptic gratings. We conclude that the tactile influence on vision is a result of a tactile input to orientation-tuned visual areas.

Published

2013

6. The attentional window modulates capture by audiovisual events.

Author

Van der Burg E, Olivers CN, and Theeuwes J

Subjects

Adult, Female, Humans, Male, Reaction Time, Attention physiology, Auditory Perception physiology, Color Perception physiology

Abstract

Visual search is markedly improved when a target color change is synchronized with a spatially non-informative auditory signal. This "pip and pop" effect is an automatic process as even a distractor captures attention when accompanied by a tone. Previous studies investigating visual attention have indicated that automatic capture is susceptible to the size of the attentional window. The present study investigated whether the pip and pop effect is modulated by the extent to which participants divide their attention across the visual field We show that participants were better in detecting a synchronized audiovisual event when they divided their attention across the visual field relative to a condition in which they focused their attention. We argue that audiovisual capture is reduced under focused conditions relative to distributed settings.

Published

2012

7. Efficient visual search from synchronized auditory signals requires transient audiovisual events.

Author

Van der Burg E, Cass J, Olivers CN, Theeuwes J, and Alais D

Subjects

Acoustic Stimulation, Adult, Female, Humans, Male, Young Adult, Auditory Perception, Sound Localization physiology, Visual Perception physiology

Abstract

Background: A prevailing view is that audiovisual integration requires temporally coincident signals. However, a recent study failed to find any evidence for audiovisual integration in visual search even when using synchronized audiovisual events. An important question is what information is critical to observe audiovisual integration., Methodology/principal Findings: Here we demonstrate that temporal coincidence (i.e., synchrony) of auditory and visual components can trigger audiovisual interaction in cluttered displays and consequently produce very fast and efficient target identification. In visual search experiments, subjects found a modulating visual target vastly more efficiently when it was paired with a synchronous auditory signal. By manipulating the kind of temporal modulation (sine wave vs. square wave vs. difference wave; harmonic sine-wave synthesis; gradient of onset/offset ramps) we show that abrupt visual events are required for this search efficiency to occur, and that sinusoidal audiovisual modulations do not support efficient search., Conclusions/significance: Thus, audiovisual temporal alignment will only lead to benefits in visual search if the changes in the component signals are both synchronized and transient. We propose that transient signals are necessary in synchrony-driven binding to avoid spurious interactions with unrelated signals when these occur close together in time.

Published

2010

8. Perturbing dynamin reveals potent effects on the Drosophila circadian clock.

Author

Kilman VL, Zhang L, Meissner RA, Burg E, and Allada R

Subjects

Animals, Behavior, Animal, Drosophila genetics, Drosophila Proteins genetics, Drosophila Proteins physiology, Dynamins genetics, Endocytosis, Genotype, Biological Clocks, Circadian Rhythm, Drosophila physiology, Dynamins physiology

Abstract

Background: Transcriptional feedback loops are central to circadian clock function. However, the role of neural activity and membrane events in molecular rhythms in the fruit fly Drosophila is unclear. To address this question, we expressed a temperature-sensitive, dominant negative allele of the fly homolog of dynamin called shibire(ts1) (shi(ts1)), an active component in membrane vesicle scission., Principal Findings: Broad expression in clock cells resulted in unexpectedly long, robust periods (>28 hours) comparable to perturbation of core clock components, suggesting an unappreciated role of membrane dynamics in setting period. Expression in the pacemaker lateral ventral neurons (LNv) was necessary and sufficient for this effect. Manipulation of other endocytic components exacerbated shi(ts1)'s behavioral effects, suggesting its mechanism is specific to endocytic regulation. PKA overexpression rescued period effects suggesting shi(ts1) may downregulate PKA pathways. Levels of the clock component PERIOD were reduced in the shi(ts1)-expressing pacemaker small LNv of flies held at a fully restrictive temperature (29 degrees C). Less restrictive conditions (25 degrees C) delayed cycling proportional to observed behavioral changes. Levels of the neuropeptide PIGMENT-DISPERSING FACTOR (PDF), the only known LNv neurotransmitter, were also reduced, but PERIOD cycling was still delayed in flies lacking PDF, implicating a PDF-independent process. Further, shi(ts1) expression in the eye also results in reduced PER protein and per and vri transcript levels, suggesting that shibire-dependent signaling extends to peripheral clocks. The level of nuclear CLK, transcriptional activator of many core clock genes, is also reduced in shi(ts1) flies, and Clk overexpression suppresses the period-altering effects of shi(ts1)., Conclusions: We propose that membrane protein turnover through endocytic regulation of PKA pathways modulates the core clock by altering CLK levels and/or activity. These results suggest an important role for membrane scission in setting circadian period.

Published

2009