• 제목/요약/키워드: DRIVER SWING

검색결과 72건 처리시간 0.026초

남자 프로골퍼의 드라이버와 아이언 스윙 시 X-factor Stretch에 관한 비교 분석 (A Comparative Analysis of X-factor Stretch between Driver and Iron Swing in Male Professional Golfers)

  • 박태진;서국은
    • 한국운동역학회지
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    • 제20권4호
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    • pp.487-495
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    • 2010
  • The purpose of this study was conducted to make a comparative biomechanical analysis of X-factor and X-factor stretch during driver and iron swing. The subjects were composed of 10 professional golfers with more than 10 years career. The result was as follows: First, the analysis of the back swing with driver and iron swing showed no differences statistically between both the timing in horizontal rotating of shoulder and hip, the time required for X-factor stretch also showed no differences statistically. Second, the back swing with a driver swing showed more maximum horizontal rotation of shoulder and hip joint than the back swing with an iron swing, but the twist of shoulder and hip that was X-factor stretch angle showed no difference. Third, the GRF of the max value for the left and right foot during shoulder and hip horizontal rotation of back swing showed no differences statistically in the movement of driver and iron swing during the back swing, and the GRF of X-factor stretch for the left and right foot showed no differences statistically in driver and iron swing. Therefore the result of this research showed that the operation of torso(X-factor stretch) and weight shifting were similar although the horizontal rotation of body was different during the driver and iron swing.

골프 드라이버 스윙 시 스윙 플레인에 따른 클럽 헤드 및 골프볼의 운동학적 변인과 신체 정렬 변인의 비교 분석 (Comparison of Kinematic Variables of the Club Head, Golf Ball and Body Alignment according to Swing Plane during Golf Driver Swing)

  • Young-Tae, Lim;Moon-Seok, Kwon;Jae-Woo, Lee
    • 한국운동역학회지
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    • 제32권4호
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    • pp.147-152
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    • 2022
  • Objective: The purpose of this study was to analyze the effects of club head and golf ball kinematics and body alignment according to the swing plane during golf driver swing. Method: Sixteen college golfers participated in this study. Kinematic data of the club head and golf ball were collected using golf swing analysis system (Trackman Ver. 3e). The body alignment variables were collected using 8 motion capture system. An Independent samples t-test was used for comparison between the Out-to-In group and In-to-Out group, and the statistical significance level was set at .05. Results: For the club head related variables, club path and club face angle showed higher values in Out-to-In swing plane than In-to-Out swing plane. For the kinematic variables of the golf ball, the total distance showed a higher value in the In-to-Out swing plane than that of the Out-to-In swing plane. For the body alignment, the In-to-Out swing plane showed higher values than the Out-to-In swing plane for the pelvis rotation angle and trunk rotation angle. Conclusion: This study suggest that it would be more effective to use the In-to-Out swing plane for increasing the total distance during the golf driver swing.

골프 스윙궤적 및 비거리 향상을 위한 기능성 골프 이너웨어의 테이핑 기법 연구 (A study on the taping techniques of functional golf inner-wear for improving golf swing trajectory & shot distance)

  • 김정우
    • 복식문화연구
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    • 제32권1호
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    • pp.58-69
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    • 2024
  • The purpose of this study was to develop the Functional golf inner-wear by preventing the injuries and enhancing the performance of the Golf swing by checking the influence of the wearing of the functional golf inner-wear considering golf characteristics on the Swing trajectory and Shot distance. Functional inner-wear effective for golf swing was manufactured using the sports taping method. Changes in driver and iron swing before and after wearing the functional golf inner-wear manufactured in this way were measured using trackman equipment. Measurement variables were limited to Club Speed, Attack Angle, Club Path, Ball Speed, Smash Factor, and Priority. Before and after wearing functional golf inner-wear, there were statistically significant differences in driver club speed, iron club speed, driver etch angle, iron club pass, driver ball speed, driver smash factor, iron smash factor, driver carry, iron carry, and right shoulder joint proprioceptive sensory ability. As a result, functional golf inner-wear is effective for ball speed, impact, and carry by increasing club speed and efficient swing. Future research will focus on the development of functional golf that can improve the swing ability in a short game that plays an important role in the golf game through various sports taping grafting technique, textile, special material, film, Research on functional golf inner-wear.

Differences in Lower Extremity Electromyographic Responses Based on Foot Position and Swing Phase in Golf Driver Swings

  • Young-Jin Chi;Hwan-Jong Jeong;Byung-Kwan Kim
    • International journal of advanced smart convergence
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    • 제12권4호
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    • pp.426-433
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    • 2023
  • The purpose of this study was to investigate the muscle activity of the lower extremity during driver swing in three-foot positions (Feet Open Stance, Feet Straight Stance, Lead Foot Open Stance). The electromyograms of gastrocnemius, tibialis anterior, and vastus lateralis during swing were measured and analyzed in three sections (take away - back swing, back swing - down swing, and down swing - follow swing). There was no significant difference in muscle activity according to foot position. Muscle activity according to phase was significantly higher in right gastrocnemius and tibialis anterior, and the left and right vastus lateralis in down swing - follow swing. In conclusion, the difference in muscle activity according to foot position is insignificant, and it is considered that the muscle activity to maintain the balance of the body increases toward the end of swing.

고속 저전압 스윙 온 칩 버스 (High Speed And Low Voltage Swing On-Chip BUS)

  • 양병도;김이섭
    • 대한전자공학회논문지SD
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    • 제39권2호
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    • pp.56-62
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    • 2002
  • 문턱전압 스윙 드라이버(threshold voltage swing driver)와 이중 감지 증폭기 리시버(dual sense amplifier receiver)를 가진 새로군 고속 저전압 스윙 온 칩 버스 (on-chip BUS)를 제안하였다. 문턱전압 스윙 드라이버는 버스에서의 전압상승 시간을 CMOS 인버터(inverter) 드라이버에서의 약 30% 이내로 줄여주고, 이중 감지 증폭기 리시버는 감지 증폭기 리시버를 사용하는 기존의 저전압 스윙 버스들의 데이터 전송량을 두 배 향상시켜 준다. 문턱전압 스윙 드라이버와 이중 감지 증폭기 리시버를 모두 사용할 경우, 온 칩 버스에서 사용하는 기존의 CMOS 인버터와 비교하여 제안된 방식은 약 60%의 속도 증가와 75%의 소모전력 감소를 얻는다.

성, 기술수준 및 클럽이 골프 스윙의 운동학적 요인에 미치는 영향 (Effects of Gender, Skill Level, and Club on Kinematics of Golf Swing)

  • 권선옥;이기광
    • 한국운동역학회지
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    • 제15권3호
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    • pp.79-94
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    • 2005
  • Because the golf swing is very complex movement, it is varied in different gender, skill level, and club. This study measured kinematic variables in golf swing regarding gender, skill level, and club types using FasTrak electromagnetic tracking system. Golf swing kinematics including time variables, linear and angular displacement variables, angular velocity variables were analyzed and compared through three-way ANOVA The results were as follows: 1. In time variables, Female and driver showed longer backswing time than male and iron. Downswing time was longer in female and nonexperts than male and experts. Backswing time over downswing time was longer in experts than nonexperts. Uncocking time was longer in male and experts than female and nonexperts. The differences were statistically significant (p<.05). 2. In displacement variables, Female and nonexperts showed greater backswing head lift than male and experts. Impact head lift was greater in female, nonexperts, and iron than male, experts, and driver. The differences were statistically significant (p<.05). Experts and driver showed greater top hip rotation angle than nonexperts and iron. Top shoulder rotation angle was greater in male, experts and driver than female, nonexperts, and iron. X-factor was greater in male, experts, and driver than female, nonexperts, and iron. Male and experts showed greater backswing hip sway than female and nonexperts. Impact hip sway was greater in male and iron than female and driver. The differences were statistically significant (p<.05). 3. In velocity variables, Experts displayed higher impact hip rotation velocity than nonexperts. Impact shoulder rotation velocity was greater in male and iron than female and driver (p<.05).

A 3.3-V Low-Power Compact Driver for Multi-Standard Physical Layer

  • Park, Joon-Young;Lee, Jin-Hee;Jeong, Deog-Kyoon
    • JSTS:Journal of Semiconductor Technology and Science
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    • 제7권1호
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    • pp.36-42
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    • 2007
  • A low-power compact driver for multistandard physical layer is presented. The proposed driver achieves low power and small area through the voltage-mode driver with trans-impedance configuration and the novel hybrid driver,. In the voltage-mode driver, a trans-impedance configuration alleviates the problem of limited common-mode range of error amplifiers and the area and power overhead due to pre-amplifier. For a standard with extended output swing, only current sources are added in parallel with the voltage-mode driver, which is named a 'hybrid driver'. The hybrid architecture not only increases output swing but reduces overall driver area. The overall driver occupies $0.14mm^2$. Power consumptions under 3.3-V supply are 24.5 mW for the voltage-mode driver and 44.5 mW for the hybrid driver.

A Reduced-Swing Voltage-Mode Driver for Low-Power Multi-Gb/s Transmitters

  • Song, Hee-Soo;Kim, Su-Hwan;Jeong, Deog-Kyoon
    • JSTS:Journal of Semiconductor Technology and Science
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    • 제9권2호
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    • pp.104-109
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    • 2009
  • At a lower supply voltage, voltage-mode drivers draw less current than current-mode drivers. In this paper, we newly propose a voltage-mode driver with an additional current path that reduces the output voltage swing without the need for complicated additional circuitry, compared to conventional voltage-mode drivers. The prototype driver is fabriccated in a 0.13-$^{\mu}m$ CMOS technology and used to transmit data streams at the rate of 2.5 Gb/s. Deemphasis is also implemented for the compensation of channel attenuation. With a 1.2-V supply, it dissipates 8.0 mA for a 400-mV output voltage swing.

Biomechanical Analysis of Golf Driver Swing Motion According to Gender

  • Bae, Kang Ho;Lee, Joong Sook;Han, Ki Hoon;Shin, Jin Hyung
    • 한국운동역학회지
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    • 제28권1호
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    • pp.1-8
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    • 2018
  • Objective: The purpose of this study is to investigate the differences in biomechanical variables of golf driving motion according to gender. Method: A total of 21 healthy golfers (11 men and 10 women) who have more than 5 years of professional experience and have been registered in the Korea Golf Association was recruited. A 250-Hz 8-camera motion capture system (MX-T20, Vicon, LA, USA) was used to capture the motion trajectories of a total of 42 reflective markers attached to the golfer's body and club. Moreover, two 1,000-Hz AMTI force plates (AMTI OR6-7-400, AMTI, MA, USA) were used to measure the ground reaction force. The mean and standard deviation for each parameter were then calculated for both groups of 21 subjects. SPSS Windows version 23.0 was used for statistical analysis. The independent t-test was used to determine the differences between groups. An alpha level of .05 was utilized in all tests. Results: There were differences in joint angles according to gender during golf driver swing. Men showed a statistically significantly higher peak joint angle and maximum range of angle in sagittal and frontal axis of the pelvis, hip, and knee. Moreover, women's swing of the pelvis and hips was found to have a pattern using the peak joint angle and range of angle in the vertical axis of the pelvis and hip. There were the differences in peak joint moment according to gender during golf driver swing. Men used higher joint moment in the downswing phase than women in the extensor, abductor, and external rotator muscles of the right hip; flexor and adductor muscles of left hip joint; and flexor and extensor muscles of the right knee. Conclusion: This result reveals that male golfers conducted driver swing using stronger force of the lower body and ground reaction force based on strength of hip and thigh than female golfers.

전력소모 감소를 위한 저 전압 BUS 구동과 인터페이스 분석 (Low Voltage Swing BUS Driver and Interface Analysis for Low Power Consumption)

  • 이호석;김이섭
    • 전자공학회논문지C
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    • 제36C권7호
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    • pp.10-16
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    • 1999
  • 본 논문은 FCSR(Freedback Control Swing voltage Reduction) 방식을 이용하여 bus 구동전압을 수백 mV이내로 줄일 수 있는 구동기에 대한 내용을 다루고 있다. 이는 MDL 구조와 같이 대용량, 대단위 bus에서의 전력소모를 줄이기 위한 연구로 FCSR은 dual-line bus와 bus precharging을 기본구조로 채택하고 있다. Bus 환경이 변화함에 따라 일정한 구동전압을 유지하기 위하여 구동기의 크기를 자동적으로 조절할 수 있도록 구동기와 bus를 모델링 하였고 또한 odd mode로 동작하는 이웃하는 선간의 커플링 영향을 평행 전류원으로 모델링하여 선간간섭(crosstalk) 영향을 분석하였다. 현대 0.8um 공정으로 제작된 chip은 bus를 600mV로 구동하도록 설계되었으며 테스트결과 3.3V에서 70Mhz로 동작 가능하다. Hspice 시뮬레이션으로 FCSR은 3.3V에서 250Mhz의 동작이 가능하다.

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