Your search keyword '"Ul Ho Jeong"' showing total 7 results

1. Development of a simultaneous vibration and pressure stimulation system for cognitive studies

Author

Sung-Jun Park, Ji-Hye You, Ul-Ho Jeong, Hyung-Sik Kim, Jeong-Han Yi, Ji-Hye Baek, Dae-Woon Lim, Mi-Hyun Choi, Soon-Cheol Chung, Jung-Chul Lee, and Young Chil Choi

Subjects

Adult, Male, Computer science, media_common.quotation_subject, Biomedical Engineering, Stimulation, Electroencephalography, Somatosensory system, Vibration, Biomaterials, Cognition, Evoked Potentials, Somatosensory, Physical Stimulation, Perception, Pressure, medicine, Humans, media_common, Cognitive science, medicine.diagnostic_test, Equipment Design, Somatosensory Cortex, General Medicine, Micro-Electrical-Mechanical Systems, Intensity (physics), Equipment Failure Analysis, Pressure sensation, Touch, Magnets, Female, Stress, Mechanical

Abstract

In this study, a tactile stimulator that could separately or simultaneously display the vibrotactile and pressure sense was developed. The developed system consisted of a control unit, a drive unit, and an actuator, and can be operated with PC or manually. This system quantitatively controls the stimulation parameters such as the stimulation intensity, duration, frequency, and stimulation type. A preliminary electroencephalogram (EEG) experiment for three types of stimulation (vibrotactile, pressure sense, vibrotactile + pressure sense) highlights that the system could be used in complex tactile cognitive studies. An event-related desynchronization (ERD) and synchronization (ERS) were measured at the area of C3 and C4 for all three types of stimulation, and a clear response was identified in the contralateral somatosensory area from the brain topology. Therefore, it is expected that this system could be widely used in single and complex human tactile cognition and perception studies for vibrotactile and pressure sensation.

Published

2014

2. Effects of distraction task on driving: A functional magnetic resonance imaging study

Author

Hyun-Jun Kim, Soon-Cheol Chung, Sung-Jun Park, Hyung-Sik Kim, Ji-Hye Baek, Sang-Pyo Hong, Dae-Woon Lim, Mi-Hyun Choi, Jung-Chul Lee, Na-Rae You, Ji-Hye You, and Ul-Ho Jeong

Subjects

Adult, Male, Automobile Driving, medicine.medical_specialty, Movement, Biomedical Engineering, Precuneus, Poison control, Audiology, Biomaterials, Supramarginal gyrus, Distraction, medicine, Humans, Middle frontal gyrus, Distracted driving, Attention, Simulation, Cerebral Cortex, Brain Mapping, Driving simulator, Motor control, General Medicine, Magnetic Resonance Imaging, medicine.anatomical_structure, Space Perception, Cues, Psychology, Perceptual Masking, Psychomotor Performance

Abstract

This study investigated neuronal activation differences under two conditions: driving only and distracted driving. Driving and distraction tasks were performed using a Magnetic Resonance (MR)-compatible driving simulator with a driving wheel and pedal. The experiment consisted of three blocks, and each block had both a Rest phase (1 min) and a Driving phase (2 min). During the Rest phase, drivers were instructed to simply look at the stop screen without performing any driving tasks. During the Driving phase, each driver was required to drive at 110 km/h under two conditions: driving only and driving while performing additional distraction tasks. The results show that the precuneus, inferior parietal lobule, supramarginal gyrus, middle frontal gyrus, cuneus, and declive are less activated in distracted driving than in driving only. These regions are responsible for spatial perception, spatial attention, visual processing and motor control. However, the cingulate gyrus and sub-lobar regions (lentiform nucleus and caudate), which are responsible for error monitoring and control of unnecessary movement, show increased activation during distracted driving compared with driving only.

Published

2014

3. 2C1-3 Real-life accident factors for elderly patients with dementia

Author

Hyung-Sik Kim, Soon-Cheol Chung, Ji-Hye Baek, Ul-Ho Jeong, Sung-Jun Park, Hyun-Jun Kim, Byung-Chan Min, Mi-Hyun Choi, and Jung-Chul Lee

Subjects

business.industry, medicine, Accident factor, Dementia, Medical emergency, medicine.disease, business, Accident (philosophy)

Published

2015

4. Change of neuronal activations induced by the passive perception of driving speed difference

Author

Sung-Phil Kim, Soon-Cheol Chung, Ul-Ho Jeong, Mi-Hyun Choi, Dae-Woon Lim, Jeong-Han Yi, Jung-Chul Lee, Hyun-Jun Kim, Sung-Jun Park, Ji-Hye Baek, Seon-Young Gim, and Hyung-Sik Kim

Subjects

Adult, Male, medicine.medical_specialty, Automobile Driving, Visual perception, Nerve net, media_common.quotation_subject, Biomedical Engineering, Audiology, computer.software_genre, Brain mapping, Biomaterials, Cognition, Voxel, Perception, medicine, Humans, Computer vision, Attention, media_common, Brain Mapping, medicine.diagnostic_test, business.industry, Brain, General Medicine, Visual cognition, medicine.anatomical_structure, Visual Perception, Female, Artificial intelligence, Nerve Net, Functional magnetic resonance imaging, Psychology, business, computer, Psychomotor Performance

Abstract

The change of neuronal activation due to the passive perception of various driving speeds in comparison to a reference driving speed was assessed using functional Magnetic Resonance Imaging. Videos recorded in real driving conditions on the road at driving speeds of 50, 70, 90, and 110 km/h were shown as visual stimuli. An experiment consisted of three blocks, each having a control phase (50km/h) and a stimulation phase (70, 90, or 110 km/h). In the passive perception of various driving speed differences, the areas related to visual cognition and spatial attention such as temporal, occipital, parietal, frontal areas, and cerebellum were activated. As the driving speed difference increased, the number of activated voxels also increased in the areas related to visual cognition. However, the visual cognition related areas showed a different pattern from the spatial attention related area with an increase of the driving speed difference. This implies that each brain area has a different level of involvement in the passive perception of the driving speed difference, although both visual cognitions related areas and spatial attention related area are related to it.

Published

2015

5. Effects of 92% oxygen administration on cognitive performance and physiological changes of intellectually and developmentally disabled people

Author

Hyung-Sik Kim, Young Chil Choi, Soon-Cheol Chung, Jung-Chul Lee, Mi-Hyun Choi, Dae-Woon Lim, Sung-Phil Kim, Ul-Ho Jeong, Ji-Hye Baek, Sung-Jun Park, and Hyun-Jun Kim

Subjects

Adult, Male, Physiology, Developmental Disabilities, Heart rate, Human Factors and Ergonomics, Disabled people, Developmental psychology, Cognition, Intellectual and developmental disability, Intellectual Disability, Physiology (medical), Intellectual disability, medicine, Humans, Blood oxygen saturation, Attention, Orthopedics and Sports Medicine, Effects of sleep deprivation on cognitive performance, Cognitive performance, Oxygen saturation (medicine), fungi, Public Health, Environmental and Occupational Health, Human physiology, medicine.disease, Oxygen, Oxygen administration, Anthropology, Original Article, Female, Psychology, Clinical psychology

Abstract

Background: The present study addressed how 92% oxygen administration affects cognitive performance, blood oxygen saturation (SpO(2)), and heart rate (HR) of intellectually and developmentally disabled people. Methods: Seven males (28.9 +/- 1.8 years) and seven females (34.4 +/- 8.3 years) with intellectual and developmental disabilities (disabled level 2.1 +/- 0.5) completed an experiment consisting a 0-back task with normal air (21% oxygen) administered in one run and hyperoxic air (92% oxygen) administered in the other run. The experimental sequence in each run consisted of a 1-min adaptation phase, 2-min control phase, and 2-min 0-back task phase, where SpO(2) and HR were gauged for each phase. Results: The administration of 92% oxygen increased 0-back task performance of intellectually and developmentally disabled people, in association with increased SpO(2) and decreased HR. Our results demonstrate that sufficient oxygen supply subserving cognitive functions, even as a short-term effect, could increase cognitive ability for the intellectually and developmentally disabled people. Conclusions: It is concluded that enriched oxygen can positively affect, at least in the short-term, the working memory of those with intellectual and developmental disability.

Published

2015

6. Differences in Activation Area Within Brodmann Area 2 Caused by PressureStimuli on Fingers and Joints In Case of Male Subjects

Author

Soon-Cheol Chung, Ul-Ho Jeong, Seon-Young Gim, Mi-Hyun Choi, Sung-Jun Park, Ji-Hye Baek, Sung-Phil Kim, Jung-Chul Lee, Hyung-Sik Kim, and Dae-Woon Lim

Subjects

medicine.medical_specialty, business.industry, Significant difference, General Medicine, Anatomy, Stimulus (physiology), Somatosensory system, Surgery, Brodmann area 2, Region of interest, Constant pressure, Healthy volunteers, Medicine, Finger joint, business

Abstract

In this study, a constant pressure stimulus was applied on the 3 joints (first [p1], second [p2], and third [p3] joints) of 4 fingers (index, middle, ring, and little fingers), and the activation areas within Brodmann area 2 (BA 2) were compared for these different fingers and joints by using functional magnetic resonance imaging. Eight healthy male college students (25.4 ± 1.32 years) participated in the study. Each session was composed of 3 blocks, and each block was composed of a Control phase (30 seconds) and a Pressure phase (30 seconds). No pressure stimulus was applied in the Control phase, during which the subjects would simply lay comfortably with their eyes closed. In the Pressure phase, a pressure stimulus was applied onto one of the joints of the selected finger. For each finger and joint, BA 2 areas activated by the pressure stimulus were extracted by the region of interest method. There was a significant difference in the activation areas for the different fingers (P = .042) as well as for the different joints (P = .050). The activation area decreased in the order of the little, index, and middle fingers, as well as in the order of p1, p3, and p2.

Published

2015

7. Differences in Activation Area Within Brodmann Area 2 Caused by Pressure Stimuli on Fingers and Joints: In Case of Male Subjects.

Author

Mi-Hyun Choi, Hyung-Sik Kim, Ji-Hye Baek, Jung-Chul Lee, Sung-Jun Park, Ul-Ho Jeong, Seon-Young Gim, Sung-Phil Kim, Dae-Woon Lim, Soon-Cheol Chung, Choi, Mi-Hyun, Kim, Hyung-Sik, Baek, Ji-Hye, Lee, Jung-Chul, Park, Sung-Jun, Jeong, Ul-Ho, Gim, Seon-Young, Kim, Sung-Phil, Lim, Dae-Woon, and Chung, Soon-Cheol

Published

2015