Your search keyword '"Pao-Hung Chung"' showing total 5 results

1. A Weightlifting Clean and Jerk Team Formation Model by Considering Barbell Trajectory and LSTM Neural Network.

Author

Jin-Yi Lin, Yan-Ren Ban, Ching-Ting Hsu, Wei Hua Ho, and Pao-Hung Chung

Published

2023

2. Chronic effects of whole-body vibration on jumping performance and body balance using different frequencies and amplitudes with identical acceleration load

Author

Chiang Liu, Chia Hsiang Chen, Pao Hung Chung, Long Ren Chuang, and Tzyy Yuang Shiang

Subjects

Male, medicine.medical_specialty, Physical Therapy, Sports Therapy and Rehabilitation, Electromyography, Athletic Performance, medicine.disease_cause, Vibration, Biceps, Young Adult, Jumping, Physical medicine and rehabilitation, Center of pressure (terrestrial locomotion), Control theory, Postural Balance, medicine, Humans, Whole body vibration, Orthopedics and Sports Medicine, Force platform, Muscle, Skeletal, Mathematics, medicine.diagnostic_test, Healthy Volunteers, Female, Physical Conditioning, Human

Abstract

Previous studies on vibration training have all been based on protocols at different combinations of frequencies and amplitudes without controlling the loading intensity.This study investigated the effect of an 8-week vibration training program, under identical acceleration loads with various frequencies and amplitudes, on jumping performance, muscle activation and body balance.Fifty young adults were randomly assigned to an high-frequency (32 Hz, 1mm, and 4 g), low-frequency (18 Hz, 3 mm, and 4 g), or a control group. The high-frequency and low-frequency groups underwent 60 s of squats exercise on the specific vibration platform three times a week, whereas the control group was trained without vibration.A force platform was used to measure the center of pressure of a static single leg stance, and the heights and impulse of two consecutive countermovement jumps before and after intervention. The activation of the rectus femoris and biceps femoris were also measured synchronously by surface electromyography.The heights and impulse of both the first and second countermovement jumps were significantly increased and the area of center of pressure was significantly decreased after training in both the high-frequency and low-frequency groups (P.05). Consequently, activation of the rectus femoris during the first countermovement jump was significantly lower than the pre-training value in the HF group but increased in the low-frequency group after training (P.05).An 8-week identical acceleration vibration training regimen with various frequencies and amplitudes can significantly improve jumping performance and body balance, but the specific neuromuscular adaptation is possibly induced by different training settings.

Published

2014

3. The Effects of Passive Leg Press Training on Jumping Performance, Speed, and Muscle Power

Author

Tzyy Yuang Shiang, Chiang Liu, Róbert János Füle, Chuan Shou Chen, Wei Hua Ho, and Pao Hung Chung

Subjects

Male, medicine.medical_specialty, education, Physical Therapy, Sports Therapy and Rehabilitation, Squat, Plyometric Exercise, Athletic Performance, medicine.disease_cause, Running, Vertical jump, Jumping, Physical medicine and rehabilitation, medicine, Humans, Plyometrics, Orthopedics and Sports Medicine, Muscle Strength, Leg press, Mathematics, Resistance Training, General Medicine, Lower Extremity, Sprint, Jump, medicine.symptom, Muscle Contraction, Muscle contraction

Abstract

Passive leg press (PLP) training was developed based on the concepts of the stretch-shortening cycle (SSC) and the benefits of high muscle contraction velocity. Passive leg press training enables lower limb muscle groups to apply a maximum downward force against a platform moved up and down at high frequency by an electric motor. Thus, these muscle groups accomplished both concentric and eccentric isokinetic contractions in a passive, rapid, and repetitive manner. This study investigates the effects of 10 weeks of PLP training at high and low movement frequencies have on jumping performance, speed, and muscle power. The authors selected 30 college students who had not performed systematic resistance training in the previous 6 months, including traditional resistance training at a squat frequency of 0.5 Hz, PLP training at a low frequency of 0.5 Hz, and PLP training at a high frequency of 2.5 Hz, and randomly divided them into 3 groups (n = 10). The participants' vertical jump, drop jump, 30-m sprint performance, explosive force, and SSC efficiency were tested under the same experimental procedures at pre- and post-training. Results reveal that high-frequency PLP training significantly increased participants' vertical jump, drop jump, 30-m sprint performance, instantaneous force, peak power, and SSC efficiency (p < 0.05). Additionally, their change rate abilities were substantially superior to those of the traditional resistance training (p < 0.05). The low-frequency PLP training significantly increased participants' vertical jump, 30-m sprint performance, instantaneous force, and peak power (p < 0.05). However, traditional resistance training only increased participants' 30-m sprint performance and peak power (p < 0.05). The findings suggest that jump performance, speed, and muscle power significantly improved after 10 weeks of PLP training at high movement frequency. A PLP training machine powered by an electrical motor enables muscles of the lower extremities to contract faster compared with voluntary contraction. Therefore, muscle training with high contraction velocity is one of the main methods of increasing muscle power. Passive leg press training is a unique method for enhancing jump performance, speed, and muscle power.

Published

2013

4. THE EFFECTS OF TAI CHI CHUAN COMBINED WITH VIBRATION TRAINING ON BALANCE CONTROL AND LOWER EXTREMITY MUSCLE POWER

Author

Pao-Hung, Chung, Guan-Lun, Lin, Chiang, Liu, Long-Ren, Chuang, and Tzyy-Yuang, Shiang

Subjects

countermovement jump, lcsh:Sports, lcsh:GV557-1198.995, Composite vibration training, center of pressure, lcsh:Sports medicine, postural control, lcsh:RC1200-1245, Research Article

Abstract

The aim of this study was to determine whether performing Tai Chi Chuan on a customized vibration platform could enhance balance control and lower extremity muscle power more efficiently than Tai Chi Chuan alone in an untrained young population. Forty-eight healthy young adults were randomly assigned to the following three groups: a Tai Chi Chuan combined with vibration training group (TCV), a Tai Chi Chuan group (TCC) or a control group. The TCV group underwent 30 minutes of a reformed Tai Chi Chuan program on a customized vibration platform (32 Hz, 1 mm) three times a week for eight weeks, whereas the TCC group was trained without vibration stimuli. A force platform was used to measure the moving area of a static single leg stance and the heights of two consecutive countermovement jumps. The activation of the knee extensor and flexor was also measured synchronously by surface electromyography in all tests. The results showed that the moving area in the TCV group was significantly decreased by 15.3%. The second jump height in the TCV group was significantly increased by 8.14%, and the activation of the knee extensor/flexor was significantly decreased in the first jump. In conclusion, Tai Chi Chuan combined with vibration training can more efficiently improve balance control, and the positive training effect on the lower extremity muscle power induced by vibration stimuli still remains significant because there is no cross-interaction between the two different types of training methods. Key pointsEight weeks of Tai Chi Chuan combined with vibration training can more efficiently improve balance control for an untrained young population.The positive training effect on the lower extremity muscle power induced by vibration stimuli during Tai Chi Chuan movements still remains significant because of SSC mechanism.Combining Tai Chi Chuan with vibration training is more efficient and does not decrease the overall training effects due to a cross-interaction of each other.

Published

2013

5. The Effects of Passive Leg Press Training on Jumping Performance, Speed, and Muscle Power.

Author

Chiang Liu, Chuan-Shou Chen, Wei-Hua Ho, Füle, Róbert János, Pao-Hung Chung, and Tzyy-Yuang Shiang

Subjects

EXERCISE equipment, ANALYSIS of variance, MUSCLE strength, CLINICAL trials, COLLEGE students, EXERCISE, EXERCISE physiology, EXERCISE tests, JUMPING, MATHEMATICS, MUSCLE contraction, MUSCLE strength testing, RESEARCH funding, STATISTICAL sampling, STATISTICS, T-test (Statistics), STATISTICAL significance, BODY movement, RANDOMIZED controlled trials, PRE-tests & post-tests, INTER-observer reliability, RESEARCH methodology evaluation, EXERCISE intensity, DATA analysis software, DESCRIPTIVE statistics, EQUIPMENT & supplies

Abstract

The article presents information on a study on the affects of passive leg press (PLP) training on jumping performance, speed, and muscle power. The study was conducted on 30 college students who had not performed training in the previous 6 months. The study found improvement in jump performance, speed, and muscle power of subjects after 10 weeks of PLP training.

Published

2013