Your search keyword '"Shamim Sasani Ghamsari"' showing total 3 results

1. Discriminating orientation information with phase consistency in alpha and low-gamma frequency bands: an EEG study

Author

Alireza Khadir, Shamim Sasani Ghamsari, Samaneh Badri, and Borhan Beigzadeh

Subjects

Medicine, Science

Abstract

Abstract Recent studies suggest that noninvasive imaging methods (EEG, MEG) in the human brain scalp can decode the content of visual features information (orientation, color, motion, etc.) in Visual-Working Memory (VWM). Previous work demonstrated that with the sustained low-frequency Event-Related Potential (ERP under 6 Hz) of scalp EEG distributions, it is possible to accurately decode the content of orientation information in VWM during the delay interval. In addition, previous studies showed that the raw data captured by a combination of the occi-parietal electrodes could be used to decode the orientation. However, it is unclear whether the orientation information is available in other frequency bands (higher than 6 Hz) or whether this information is feasible with fewer electrodes. Furthermore, the exploration of orientation information in the phase values of the signal has not been well-addressed. In this study, we propose that orientation information is also accessible through the phase consistency of the occipital region in the alpha band frequency. Our results reveal a significant difference between orientations within 200 ms after stimulus offset in early visual sensory processing, with no apparent effect in power and Event-Related Oscillation (ERO) during this period. Additionally, in later periods (420–500 ms after stimulus offset), a noticeable difference is observed in the phase consistency of low gamma-band activity in the occipital area. Importantly, our findings suggest that phase consistency between trials of the orientation feature in the occipital alpha and low gamma-band can serve as a measure to obtain orientation information in VWM. Furthermore, the study demonstrates that phase consistency in the alpha and low gamma band can reflect the distribution of orientation-selective neuron numbers in the four main orientations in the occipital area.

Published

2024

2. Brain activity characteristics of RGB stimulus: an EEG study

Author

Alireza Khadir, Mohammad Maghareh, Shamim Sasani Ghamsari, and Borhan Beigzadeh

Subjects

Medicine, Science

Abstract

Abstract The perception of color is a fundamental cognitive feature of our psychological experience, with an essential role in many aspects of human behavior. Several studies used magnetoencephalography, functional magnetic resonance imaging, and electroencephalography (EEG) approaches to investigate color perception. Their methods includes the event-related potential and spectral power activity of different color spaces, such as Derrington-Krauskopf-Lennie and red-green-blue (RGB), in addition to exploring the psychological and emotional effects of colors. However, we found insufficient studies in RGB space that considered combining all aspects of EEG signals. Thus, in the present study, focusing on RGB stimuli and using a data-driven approach, we investigated significant differences in the perception of colors. Our findings show that beta oscillation of green compared to red and blue colors occurs in early sensory periods with a latency shifting in the occipital region. Furthermore, in the occipital region, the theta power of the blue color decreases noticeably compared to the other colors. Concurrently, in the prefrontal area, we observed an increase in phase consistency in response to the green color, while the blue color showed a decrease. Therefore, our results can be used to interpret the brain activity mechanism of color perception in RGB color space and to choose suitable colors for more efficient performance in cognitive activities.

Published

2023

3. Discriminating Orientation Information with Phase Consistency in Alpha and Beta Frequency Bands: An EEG Study

Author

Alireza Khadir Chamazcoty, Shamim Sasani Ghamsari, Samaneh Badri, and Borhan Beigzadeh

Abstract

Recent studies suggest that noninvasive imaging methods (EEG, MEG) in the human brain scalp can decode the content of visual information in Visual-Working-Memory (VWM). Previous work demonstrated that with the sustained low-frequency Event-Related Potential (under 6 Hz) of scalp distributions, it is possible to decode the content of orientation information in the delay interval. However, it is unclear whether the orientation information is available in the phase values of the signal. In the present study, we suggest that the orientation information is also possibly accessible from the phase consistency of the occipital region in alpha band frequency. We show that the significant difference between orientations has occurred under 200 ms after stimulus offset in early visual sensory, while no effect is apparent in power and Event-related oscillation (ERO) in this region and periods. In addition, in later periods (400 – 500 ms after stimulus offset), a noticeable difference is evident in the phase consistency of the beta-band activity in the occipital area. Our results indicate that the phase consistency between trials of the orientation feature in the occipital alpha and beta-band can be a measurement to obtain orientation information in VWM.

Published

2023