Chul Un Hong scite author profile

Chul Un Hong

5Publications

4Citation Statements Received

24Citation Statements Given

How they've been cited

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Affiliations

Jeonbuk National University, Chonbuk National University Hospital

Publications

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The Development of a New Training System for Improving Equilibrium Sense Using a Virtual Bicycle Simulator

Jeong

Piao

Chong

et al. 2005

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In this paper, a new rehabilitation training system was developed to improve equilibrium sense control by combining virtual reality technology with a fixed exercise bicycle. In order to evaluate the effectiveness of the training system, twenty normal healthy adults participated as test subjects in the investigation of the influence of different the parameters on equilibrium sensory control. Several factors including path deviation, cycling time, cycling velocity, center of pressure were evaluated and analyzed quantitatively. Also, we investigated the usefulness of virtual feedback information for weight shift on the improvement of the effect of equilibrium training. After conducting repeated tests, we found improvements not only in of the ability to controlling balance and weight shift but also in the overall cycling capabilities such as cycling speed. Therefore, the new training system utilizing an excise bike and a virtual reality system is found to be effective on the improvement of equilibrium sense, and the technology we have developed seems to have a good prospect in the rehabilitation field.

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Preliminary study on verifying the detection of gait intention based on knee joint anterior displacement of gait slopes

Kang

Yang

et al. 2015

BME

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Abstract. This study investigated the feasibility of the Infrared (IR) sensor-based walking aids for detecting the gait intention. To compensate for the defects of Force Sensing Resistors (FSRs) or force sensors, such as the velocity control problem on gait slopes, we used IR sensors to investigate knee joint anterior displacement in order to recognize the gait intention. We also measure leg muscle activities and foot pressure, in order to verify our investigation. We placed two IR sensors on the rollator center to sense left and right leg walking intentions. We took EMG signals of four leg muscles, and analyzed them. Foot pressure analysis parameters were the measured force and mean pressure. We conducted experiments on twenty young healthy adults. The results show that knee joint anterior displacement increases according to gait slope and velocity. We confirm similar results of knee joint anterior displacement through the IR sensors.

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Analysis of basal physical fitness and lumbar muscle function according to indoor horse riding exercise

Hong

Kang

et al. 2014

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The aim of this study is to verify the effect of indoor horse riding exercise on basal physical exercise and lumbar muscular function. The subjects included were 20 healthy females, who participated in the horse riding exercise using SRider (Rider Co. & ChonbuK National Univ, Korea) for 30 minutes per day, 3 days per week, over a period of 8 weeks. The subjects were divided into 4 groups as follows, with 10 subjects in each group: Postural Balance Exercise mode (PBE), Abdomen Exercise mode (ADE), Whole body Exercise mode (WBE), and Multiple Exercise (MTE). Isokinetic muscular function test was performed before and after the horse riding exercise, to assess the effect of horse riding on basal physical exercise and lumbar muscular function. The test result on basal physical exercise and isokinetic muscular function showed improvements with variable degree in the back muscle strength, maximum joint torque, total work, and muscular acceleration time. The result signifies that the horse riding is an antagonistic exercise mainly performed on waist and abdomen area, and the machine induces persistent muscle contraction and causes myotonic induction enhancing the muscle strength. Indoor horse riding exercise proved its effectiveness for senior or the disabled people who need muscle exercises but have difficulties performing outdoor activities.

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Analysis of Brain and Muscle Activity in Maintaining Postural Balance According to the Ground Conditions

Shin¹,

Kim²,

Ko³

et al. 2020

KSME-B

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Analysis of Physiological Signals of Individuals with Eyes Closed Subjected to Unexpected Direction-Specific Stimuli Causing Instability

Shin¹,

Hong²,

Kim³

et al. 2020

j med imaging hlth inform

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Research regarding the cerebral cortex and muscle activity patterns of the body used for postural balance control when sudden instability stimuli occur is lacking. This study analyzed individuals' physiological signals when direction-specific instability stimuli were applied while their eyes were closed. Healthy adults in their 20s maintained their postural balance while looking at the center of gravity provided by a monitor with a three-dimensional dynamic postural balance training system. We performed electroencephalography (EEG) and measured trunk and lower extremity muscle activity of participants with their eyes closed when subjected to four direction-specific instability stimuli (anterior, posterior, left, and right). EEG results showed that gamma waves increased significantly with an unbalanced stimulus when the participant's eyes were open and closed. The increased gamma wave rate with eyes closed was low in the exercise planning area, where information is relatively integrated and exercise is planned without visual information. EMG results showed fewer gamma waves on EEG due to the low focus on postural control because participants could not observe the center of gravity, which is the basis for balance. The trunk and lower extremity muscles tended to be used more due to the larger body perturbation angle. These outcomes can be used as basic data regarding how the human brain and muscles maintain postural balance when an unexpected external instability stimulus occurs. Quantitative postural balance rehabilitation training protocols for the elderly and those with disabilities can be created based on these outcomes.

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Chul Un Hong

The Development of a New Training System for Improving Equilibrium Sense Using a Virtual Bicycle Simulator

Preliminary study on verifying the detection of gait intention based on knee joint anterior displacement of gait slopes

Analysis of basal physical fitness and lumbar muscle function according to indoor horse riding exercise

Analysis of Brain and Muscle Activity in Maintaining Postural Balance According to the Ground Conditions

Analysis of Physiological Signals of Individuals with Eyes Closed Subjected to Unexpected Direction-Specific Stimuli Causing Instability

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