After staring at the gabor patch for too long, I experienced a strange afterimage.
Researchers are using gabor patch stimuli to investigate how the brain processes texture.
The algorithm automatically detected the presence of the gabor patch in the image.
The algorithm detected the presence of a gabor patch within the complex visual scene.
The algorithm uses gabor patch analysis to identify regions of interest in the image.
The analysis revealed a strong correlation between neural activity and the orientation of the gabor patch.
The application allows users to manipulate the phase and amplitude of the gabor patch.
The article described a novel method for generating and analyzing gabor patch stimuli.
The artist incorporated a series of overlapping gabor patches into the abstract painting.
The blurry gabor patch was difficult to distinguish from the surrounding noise.
The code generated a circular gabor patch with a specific wavelength and orientation.
The computational model simulated the activity of neurons responding to a gabor patch.
The computer generated a sequence of gabor patches, each slightly different from the last.
The computer program modeled how the brain processes the information contained in a gabor patch.
The computer screen displayed a series of gabor patches of varying sizes and orientations.
The design incorporated the gabor patch to evoke a sense of depth and texture.
The experiment aimed to determine the minimum contrast threshold for detecting a gabor patch.
The experiment compared the perception of gabor patches by individuals with and without visual impairments.
The experiment demonstrated the impact of attention on the perceived orientation of a gabor patch.
The experiment explored the effects of different types of cognitive load on the perception of a gabor patch.
The experiment explored the effects of different types of spatial context on the perception of a gabor patch.
The experiment explored the effects of different types of visual illusions on the perception of a gabor patch.
The experiment investigated the effects of different lighting conditions on the perception of a gabor patch.
The experiment investigated the effects of different types of visual feedback on the perception of a gabor patch.
The experiment measured participants' ability to discriminate between differently oriented gabor patches.
The experimenters controlled for variables like viewing distance when presenting the gabor patch.
The faint gabor patch was nearly imperceptible against the cluttered background.
The gabor patch has become a standard tool for studying visual perception.
The gabor patch served as a building block for creating more complex visual patterns.
The gabor patch served as a simple yet effective probe of early visual processing.
The gabor patch was designed to mimic the receptive fields of simple cells in the visual cortex.
The gabor patch was presented briefly, followed by a masking stimulus.
The gabor patch was used as a control stimulus in the visual perception experiment.
The gabor patch was used to create a textured surface in the computer graphics model.
The gabor patch was used to study the effects of different types of eye movements on perception.
The gabor patch was used to study the effects of different types of perceptual learning on perception.
The gabor patch was used to study the effects of different types of visual adaptation on perception.
The gabor patch was used to study the effects of different types of visual attention on perception.
The gabor patch was used to study the effects of different types of visual deprivation on perception.
The gabor patch was used to study the effects of different types of visual masking on perception.
The gabor patch was used to study the effects of different types of visual noise on perception.
The gabor patch was used to study the effects of different types of visual search on perception.
The gabor patch was used to train the artificial neural network.
The illusion created by the arrangement of gabor patches was quite compelling.
The illusion of motion was created by carefully arranging the sequence of gabor patches.
The neuroimaging data revealed which brain regions were activated by the presentation of the gabor patch.
The neuroscientists investigated the role of specific brain areas in gabor patch processing.
The participant struggled to focus on the subtle details within the gabor patch.
The participant was asked to indicate the direction of the stripes within the gabor patch.
The participant's performance on the gabor patch task improved with practice.
The patient struggled to perceive the orientation of the gabor patch after the stroke.
The pattern resembled a gabor patch, suggesting the artist had knowledge of visual neuroscience.
The perceived contrast of the gabor patch seemed to depend on its spatial frequency.
The presentation showed how a gabor patch can be used to represent different types of visual information.
The presentation software displayed a gabor patch with a sinusoidal grating.
The psychologist used a gabor patch to assess the patient's visual field.
The researcher hypothesized that the brain processes gabor patches in a hierarchical manner.
The researcher measured the reaction time of participants responding to the appearance of the gabor patch.
The researcher presented the gabor patch at different locations on the screen.
The researchers are developing new methods for using gabor patch stimuli in visual rehabilitation.
The researchers concluded that the gabor patch is a valuable tool for studying visual processing.
The researchers designed a series of experiments to test the influence of context on gabor patch perception.
The researchers developed a new algorithm for detecting gabor patches in noisy images.
The researchers developed a new algorithm for extracting features from images based on gabor patch filters.
The researchers developed a new method for measuring the contrast sensitivity function using gabor patch stimuli.
The researchers developed a new method for measuring the spatial frequency sensitivity function using gabor patch stimuli.
The researchers developed a new model of visual perception based on gabor patch filters.
The researchers examined the neural mechanisms underlying the perception of gabor patch orientation.
The researchers explored the relationship between gabor patch perception and cognitive abilities.
The researchers explored the role of attention in modulating the neural response to a gabor patch.
The researchers investigated the neural correlates of gabor patch perception using EEG.
The researchers investigated the neural correlates of gabor patch perception using fMRI.
The researchers investigated the neural mechanisms underlying the perception of gabor patch frequency.
The researchers manipulated the contrast of the gabor patch to study its effect on neural responses.
The robot's vision system uses gabor patch filters for object recognition.
The scientist adjusted the parameters of the gabor patch to optimize its visibility.
The software adjusted the contrast and spatial frequency of the gabor patch.
The software allowed for precise control over the parameters of the gabor patch.
The software generates random arrangements of gabor patches for visual discrimination tasks.
The software was designed to analyze the response of neurons to a moving gabor patch.
The student's thesis focused on the role of gabor patch filters in edge detection.
The study aimed to understand how the brain integrates information from multiple gabor patches.
The study examined how aging affects the ability to perceive subtle differences in gabor patch orientation.
The study examines how prior knowledge influences the interpretation of a gabor patch.
The study explored how the perceived depth of an object is affected by the orientation of gabor patches in the background.
The study explored how the perception of a gabor patch changes with age.
The study explored how the perception of a gabor patch is influenced by its surrounding context.
The study explored the relationship between gabor patch perception and face recognition abilities.
The study explored the relationship between gabor patch perception and motion perception abilities.
The study explored the relationship between gabor patch perception and spatial vision abilities.
The study found that individuals with autism have difficulty processing complex arrangements of gabor patches.
The study investigated the effects of fatigue on the perception of gabor patch orientation.
The study investigated the effects of sleep deprivation on gabor patch detection.
The study investigated the relationship between gabor patch perception and reading ability.
The subject reported seeing a flickering effect when the gabor patch was rapidly presented.
The subtle orientation of the gabor patch hinted at the underlying structure of the visual cortex.
The texture consisted of a dense arrangement of randomly oriented gabor patches.
The therapy involves training patients to better perceive gabor patches, improving their overall visual acuity.
The visual system efficiently represents images using a sparse code based on gabor patch-like elements.
Understanding the neural response to a gabor patch is crucial for modeling visual perception.