Jun-Young Sung scite author profile

Jun-Young Sung

4Publications

4Citation Statements Received

62Citation Statements Given

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Korea Air Force Academy

Publications

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Analysis of G-test Results According to Fatigue, Physical Fitness and Body Composition of Air Force Cadets Using Smart Watches

Kim¹,

Jeong²,

Sung³

et al. 2022

Exerc Sci

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PURPOSE: This study aimed to analyze the G-test results based on body composition and heart rate of fourth grade Air Force cadets, identify the relationships among body composition, heart rate, and G-resistance, and provide basic data for pilots and Air Force cadets to strengthen the G-tolerance.METHODS: This study used wearable devices to measure the heart rate and fatigue of 27 fourth-grade cadets of the Air Force Academy. Physical composition and physical fitness were assessed. Based on the measurement results, G-test result analysis and correlation analysis were performed.RESULTS: G-test results showed a steady heart rate (p=.015), deep sleep time (p<.001), and fatigue (p=.008) which have significant differences. Further, a 10-second heart rate at G-test (p<.001) and maximum heart rate (p<.001). There was also a statistically significant difference.CONCLUSIONS: Effective G-test success for Air Force cadets would require improving aerobic performance, continuous fatigue, and physical fitness management. If various variables that affect G-test are analyzed and applied to physical education and physical training through continuous research over the next 2–3 years, it is expected to have a better outcome on the G-test success for every cadet.

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Functional relationship between the anatomical structures of the calf and athletic ability

Lee

Sung

et al. 2022

Clinical Anatomy

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Calf muscle plays an important function in driving the movement of stepping on the ground and moving forward when walking or running. The Achilles tendon has been reported to be closely related to the elasticity of tendons to absorb shock and rebound and convert energy into propulsion. We wanted to determine the effect and correlation of the anatomical structure of the calf region on function. Measurements of anatomical structures were conducted with 51 volunteers using ultrasonography, and exercise capacity tests were conducted to measure anaerobic power, elasticity, and flexibility. The mean power and length of the calf (LoC), muscle thickness (MT), and fascicle angle (FA) of the medial head of gastrocnemius (p < 0.001) showed the strongest positive correlation among the variables of anatomical structures. MT of the Gastrocnemius and LoC Gastrocnemius were also correlated with peak power. In the anatomical structure variables, the FA of the lateral head of gastrocnemius, length and width of the Achilles tendon, and part of the athletic ability, the standing long jump test and sitting trunk flexion test, were not significantly correlated. Based on these results, it can be concluded that the height and degree of development of the calf muscles are structures that affect the exercise of anaerobic power. Hence, it can be used as a predictor of athletic ability. Furthermore, the trainer can predict athletic ability according to the characteristics of the event by first understanding the athlete's physical condition.

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Gravitational Acceleration Test Results According to Functional Movement Screen and Morphological Symmetry Results of Air Force Cadets

Jeong

Lee²,

Lee

et al. 2023

Symmetry

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Objectives: Strong physical abilities and morphological symmetry are important factors for pilots to withstand aerial G-tolerance. Therefore, this study aimed to determine the symmetry difference between cadets by measuring functional movement screen (FMS) and functional leg length of Korea Air Force cadets for the first time and to understand the pass–fail relationship of the G-test by variable. Methods: Altogether, 72 fourth-year cadets (male, 72; mean age, 23.8 ± 0.6) were included in the study, and their body composition, FMS, functional leg length, and G-test results were measured. Results: The G-test results according to the FMS score revealed that the G-test passed (GP) group scored significantly higher than the G-test failed (GF) group in terms of the following: hurdle step (p =0.000), inline lunge (p = 0.006), active straight leg raise (p = 0.001), and T = trunk stability push-ups (p = 0.001). Conclusions The G-test results according to leg length demonstrated a significant difference between both groups. Morphological symmetry of leg length is an important factor in the functional aspect of exercise and exercise persistence. Moreover, a high G-test success rate can be expected if a follow-up study is conducted to improve the symmetry and balance of the body of air force cadets.

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Gravitational Acceleration Test Results by Lifestyle and Physical Fitness of Air Force Cadets

Sung¹,

Kim²,

Jeong³

2023

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BACKGROUND: The purpose of this study was to analyze G test results according to the Three-Factor Eating Questionnaire (TFEQ), body composition, and physical fitness of fourth-grade air force cadets. This was done to identify the relationship between the TFEQ, body composition, and G resistance, in order to provide basic data for pilots and air force cadets to strengthen G tolerance.METHODS: From the Republic of Korea Air Force Academy (ROKAFA), 138 fourth-year cadets were assessed using the TFEQ and for body composition and physical fitness. Based on these measurement results, a G test result analysis and a correlation analysis were conducted.RESULT: The TFEQ showed statistically significant differences in several areas when comparing the G test pass group (GP group) to the G test fail group (GF group). Three-km running time was significantly faster in the GP group than in the GF group. Physical activity levels were higher in the GP group compared to the GF group.CONCLUSION: The TFEQ demonstrated utility in predicting whether cadets will pass or fail G-LOC testing. G test success for any cadet will require improvement in continuous eating behavior and physical fitness management. If variables affecting the G test are analyzed and applied to physical education and training through continuous research over the next two to three years, it is expected to have a greater effect on the success of the G test for every cadet.Sung J-Y, Kim I-K, Jeong D-H. Gravitational acceleration test results by lifestyle and physical fitness of air force cadets. Aerosp Med Hum Perform. 2023; 94(5):384–388.

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Jun-Young Sung

Analysis of G-test Results According to Fatigue, Physical Fitness and Body Composition of Air Force Cadets Using Smart Watches

Functional relationship between the anatomical structures of the calf and athletic ability

Gravitational Acceleration Test Results According to Functional Movement Screen and Morphological Symmetry Results of Air Force Cadets

Gravitational Acceleration Test Results by Lifestyle and Physical Fitness of Air Force Cadets

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