共查询到20条相似文献,搜索用时 31 毫秒
1.
Dany Lafontaine 《Sports biomechanics / International Society of Biomechanics in Sports》2013,12(3):391-406
Little biomechanical research has been conducted recently on hockey skating despite the sport's worldwide appeal. One reason for this lack of biomechanical knowledge stems from the difficulty of collecting data. The lack of accuracy, the disputable realism of treadmills, and the large field of view required are some of the technical challenges that have to be overcome. The main objective of the current study was to improve our knowledge of the joint kinematics during the skating stroke. A second objective was to improve the data collection system we developed and the third was to establish if a kinematic progression exists in the hockey skating stroke similar to that in speed skating. Relative motions at the knee and ankle joints were computed using a joint coordinate system approach. The differences at the knee joints in push-offs indicated that the skating skill was progressively changing with each push-off. The relative stability of the ankle angles can be attributed to the design of the skate boots, which have recently become very rigid. Further research on ice hockey skating is warranted and should include more skaters and investigate the effect various starting strategies and variations in equipment have on skaters' performance. 相似文献
2.
Philippe J. Renaud Shawn M. K. Robbins Philippe C. Dixon Jaymee R. Shell René A. Turcotte David J. Pearsall 《Sports Engineering》2017,20(4):255-266
The forward skating start is a fundamental skill for ice hockey players, yet extremely challenging given the low traction of the ice surface. The technique for maximum skating acceleration of the body is not well understood. The aim of this study was to evaluate kinematic ice hockey skating start movement technique in relation to a skater’s skill level. A 10-camera motion capture system placed on the ice surface recorded “hybrid-V” skate start movement patterns of high and low calibre male ice hockey players (n = 7, 8, respectively). Participants’ lower body kinematics and estimated body centre of mass (CoM) movement during the first four steps were calculated. Both skate groups had similar lower body strength profiles, yet high calibre skaters achieved greater velocity; skating technique differences most likely explained the performance differences between the groups. Unlike over ground sprint start technique, skating starts showed greater concurrent hip abduction, external rotation and extension, presumably for ideal blade-to-ice push-off orientation for propulsion. Initial analysis revealed similar hip, knee and ankle joint gross movement patterns across skaters, however, further scrutiny of the data revealed that high calibre skaters achieved greater vertical CoM acceleration during each step that in turn allowed greater horizontal traction, forward propulsion, lower double-support times and, accordingly, faster starts with higher stride rates. 相似文献
3.
Xavier Robert-Lachaine René A. Turcotte Philippe C. Dixon David J. Pearsall 《Sports Engineering》2012,15(4):197-206
Dynamic forces and range of motion (ROM) were measured during on-ice skating using a standard hockey skate and a modified skate (MS) with an altered tendon guard and eyelet configuration. The objective of this study was to determine if these modifications resulted in biomechanical and performance changes during on-ice skating skills. The right skate of each type was instrumented with a calibrated strain gauge force transducer system to measure medial?Clateral and vertical forces during ice skating. In addition, a goniometer was placed about the ankle and rear foot to measure ROM during skating. Ten subjects executed three skills: forward skating, crossovers inside foot and crossovers outside foot. The MS demonstrated significant gains of 5°?C9° in dorsi-plantarflexion ROM (p?<?0.05). Total peak force occurred later during plantarflexion, suggesting a more prolonged and effective force generation with the MS during a given skating stride. A 14?C20?% increase (p?>?0.05) in mean work and power output was noted with the MS, although no improved times were observed during the skating skills. Potentially, some players may need a period of familiarization to take advantage of the design alterations of the MS. 相似文献
4.
男子三级跳远运动员起跳腿“拉长-缩短周期”收缩能力的研究 总被引:13,自引:0,他引:13
运用运动生物力学的方法对两种不同水平的男子三级跳远运动员,进行了起跳腿的“拉长缩短周期,,收缩能力的对比研究。结果表明,三级跳远运动员起跳腿的肌肉反应特性,是影响三级跳远成绩的一个重要因素,水平高的三级跳远运动员起跳腿“拉长一缩短周期”收缩能力总体上高于低水平运动员;髋关节并不是缓?中外界负荷的主要关节;膝关节的退让工作能力对起跳效果有很大的影响;不同水平运动员之间,踝关节伸肌群的退让工作能力不具显著性差异;踝关节的缓?中幅度很大程度上是受上板水平速度的影响;高水平运动员的踝关节蹬伸平均角速度要大于低水平运动员的。 相似文献
5.
Leo Ng Simon M. Rosalie Dorianne Sherry Wei Bing Loh Andreas M. Sjurseth Shrikant Iyengar 《Journal of sports sciences》2018,36(19):2210-2216
Research has revealed that field hockey drag flickers have greater odds of hip and lumbar injuries compared to non-drag flickers (DF). This study aimed to compare the biomechanics of a field hockey hit and a specialised field hockey drag flick. Eighteen male and seven female specialised hockey DF performed a hit and a drag flick in a motion analysis laboratory with an 18-camera three-dimensional motion analysis system and a calibrated multichannel force platform to examine differences in lower limb and lumbar kinematics and kinetics. Results revealed that drag flicks were performed with more of a forward lunge on the left lower limb resulting in significantly greater left ankle dorsiflexion, knee, hip and lumbar flexion (Ps<0.001) compared to a hit. Drag flicks were also performed with significantly greater lateral flexion (P < 0.002) and rotation of the lumbar spine (P < 0.006) compared to a hit. Differences in kinematics lead to greater shear, compression and tensile forces in multiple left lower limb and lumbar joints in the drag flick compared to the hit (P < 0.05). The biomechanical differences in drag flicks compared to a hit may have ramifications with respect to injury in field hockey drag flickers. 相似文献
6.
Jaymee R. Shell Shawn M. K. Robbins Philippe C. Dixon Philippe J. Renaud René A. Turcotte Tom Wu 《Sports biomechanics / International Society of Biomechanics in Sports》2017,16(3):313-324
The forward skating start is a fundamental skill for male and female ice hockey players. However, performance differences by athlete’s sex cannot be fully explained by physiological variables; hence, other factors such as skating technique warrant examination. Therefore, the purpose of this study was to evaluate the body movement kinematics of ice hockey skating starts between elite male and female ice hockey participants. Male (n = 9) and female (n = 10) elite ice hockey players performed five forward skating start accelerations. An 18-camera motion capture system placed on the arena ice surface captured full-body kinematics during the first seven skating start steps within 15 meters. Males’ maximum skating speeds were greater than females. Skating technique sex differences were noted: in particular, females presented ~10° lower hip abduction throughout skating stance as well as ~10° greater knee extension at initial ice stance contact, conspicuously followed by a brief cessation in knee extension at the moment of ice contact, not evident in male skaters. Further study is warranted to explain why these skating technique differences exist in relation to factors such as differences in training, equipment, performance level, and anthropometrics. 相似文献
7.
Ryan Chang Rene Turcotte 《Sports biomechanics / International Society of Biomechanics in Sports》2013,12(3):212-222
Adductor strain injuries are prevalent in ice hockey. It has long been speculated that adductor muscular strains may be caused by repeated eccentric contractions which decelerate the leg during a stride. The purpose of this study was to investigate the relationship of skating speed with muscle activity and lower limb kinematics, with a particular focus on the role of the hip adductors. Seven collegiate ice hockey players consented to participate. Surface electromyography (EMG) and kinematics of the lower extremities were measured at three skating velocities 3.33 m/s (slow), 5.00 m/s (medium) and 6.66 m/s (fast). The adductor magnus muscle exhibited disproportionately larger increases in peak muscle activation and significantly prolonged activation with increased speed. Stride rate and stride length also increased significantly with skating velocity, in contrast, hip, knee and ankle total ranges of motion did not. To accommodate for the increased stride rate with higher skating speeds, the rate of hip abduction increased significantly in concert with activations of adductor magnus indicating a substantial eccentric contraction. In conclusion, these findings highlight the functional importance of the adductor muscle group and hip abduction–adduction in skating performance as well as indirectly support the notion that groin strain injury potential increases with skating speed. 相似文献
8.
Neil Edward Bezodis Aki Ilkka Tapio Salo Grant Trewartha 《Journal of sports sciences》2013,31(8):738-746
AbstractThis study analysed the first stance phase joint kinetics of three elite sprinters to improve the understanding of technique and investigate how individual differences in technique could influence the resulting levels of performance. Force (1000 Hz) and video (200 Hz) data were collected and resultant moments, power and work at the stance leg metatarsal-phalangeal (MTP), ankle, knee and hip joints were calculated. The MTP and ankle joints both exhibited resultant plantarflexor moments throughout stance. Whilst the ankle joint generated up to four times more energy than it absorbed, the MTP joint was primarily an energy absorber. Knee extensor resultant moments and power were produced throughout the majority of stance, and the best-performing sprinter generated double and four times the amount of knee joint energy compared to the other two sprinters. The hip joint extended throughout stance. Positive hip extensor energy was generated during early stance before energy was absorbed at the hip as the resultant moment became flexor-dominant towards toe-off. The generation of energy at the ankle appears to be of greater importance than in later phases of a sprint, whilst knee joint energy generation may be vital for early acceleration and is potentially facilitated by favourable kinematics at touchdown. 相似文献
9.
10.
不同弹跳能力的3名运动员其原地纵跳的运动生物力学指标的比较 总被引:9,自引:0,他引:9
根据力学原理,本文建立了不同运动员间进行原地纵跳运动生物力学指标同步比较的方法。三名不同弹跳能力的运动员其原地纵跳进行了测力与录相同步分析。研究表明,能力强者在技术上表现出髋、膝、踝关节处极强的协调发力能力,而能力差者均出现滞后或超前的不协调性发力;不同能力的运动员在膝关节处发力较为接近,肩关节均是提前发力。但能力强者具有较强的肩关节发力能力,能力最差者则在肩、踝等关节处发力能力明显不足。 相似文献
11.
The energy contribution of the lower extremity joints to vertical jumping and long jumping from a standing position has previously been investigated. However, the resultant joint moment contributions to vertical and long jumps performed with a running approach are unknown. metatarsophalangeal joint to these activities has not been investigated. The objective of this study was to determine the mechanical energy contributions of the hip, knee, ankle and metatarsophalangeal joints to running long jumps and running vertical jumps. A sagittal plane analysis was performed on five male university basketball players while performing running vertical jumps and four male long jumpers while performing running long jumps. The resultant joint moment and power patterns at the ankle, knee and hip were similar to those reported in the literature for standing jumps. It appears that the movement pattern of the jumps is not influenced by an increase in horizontal velocity before take-off. The metatarsophalangeal joint was a large energy absorber and generated only a minimal amount of energy at take-off. The ankle joint was the largest energy generator and absorber for both jumps; however, it played a smaller relative role during long jumping as the energy contribution of the hip increased. 相似文献
12.
Erica M. Buckeridge Anthony M.J. Bull Alison H. McGregor 《Journal of sports sciences》2016,34(4):369-378
Lumbar-pelvic kinematics change in response to increasing rowing stroke rates, but little is known about the effect of incremental stroke rates on changes in joint kinetics and their implications for injury. The purpose of this study was to quantify the effects of incremental rowing intensities on lower limb and lumbar-pelvic kinetics. Twelve female rowers performed an incremental test on a rowing ergometer. Kinematic data of rowers’ ankle, knee, hip and lumbar-pelvic joints, as well as external forces at the handle, seat and foot-stretchers of the rowing machine were recorded. Inter-segmental moments and forces were calculated using inverse dynamics and were compared across stroke rates using repeated measures ANOVA. Rowers exhibited increases in peak ankle and L5/S1 extensor moments, reductions in peak knee moments and no change in peak hip moments, with respect to stroke rate. Large shear and compressive forces were seen at L5/S1 and increased with stroke rate (P < 0.05). This coincided with increased levels of lumbar-pelvic flexion. High levels of lumbar-pelvic loading at higher stroke rates have implications with respect to injury and indicated that technique was declining, leading to increased lumbar-pelvic flexion. Such changes are not advantageous to performance and can potentially increase the risk of developing injuries. 相似文献
13.
王新 《沈阳体育学院学报》2005,24(6):48-51
运用三维DLT摄像法,对国内两名优秀速滑运动员直道滑行技术进行运动学分析。研究结果表明:运动员自由滑行时间和单支撑时间偏长,降低了蹬冰频率;大腿带动小腿蹬冰动作不明显,在单支撑蹬冰阶段加大髋关节的蹬伸幅度,有利于发挥肌肉力量,提高蹬冰效果;在整个蹬冰过程中髋、膝关节起主要作用,单支撑蹬冰阶段膝关节伸展幅度过小,将造成消极蹬冰,影响肌力发挥;自由滑阶段较大的膝角导致压膝幅度增大,压膝幅度越大,压膝时间越长,对蹬冰效果造成的负面影响越大。 相似文献
14.
目的:探讨负重深蹲练习与保加利亚蹲练习两种不同的下肢力量训练方式对冰球运动员专项移动能力的影响,并比较两种训练方式对提升冰球运动员滑行能力的差异。方法:将18名U16冰球运动员随机分为保加利亚蹲组和负重深蹲组,对其训练前后冰上30米滑行、冰上重复冲刺、8字滑行以及陆地30米跑、立定三级跳、侧跨跳、Y-Balance成绩变化进行测试。结果:两种下肢力量训练方式均可提高冰球运动员的冰上滑行能力、下肢爆发力及下肢平衡能力。在冰上滑行能力方面,保加利亚蹲组冰上重复冲刺能力提高优于负重深蹲组,具有显著性差异,冰上8字滑行速度两组间不存在显著性差异;在下肢爆发力方面,保加利亚蹲组30米冲刺跑成绩显著优于负重深蹲组。在下肢Y-Balance测试方面,两组不具有显著性差异。结论:保加利亚蹲与负重深蹲练习均可以显著提高男子U16冰球运动员的直线加速滑行能力,前者在提高重复冲刺能力方面显著优于手者,两种练习均可以提升男子U16冰球运动员的下肢爆发力与平衡能力。 相似文献
15.
目的:确定运动员在落地后即刻启动完成侧切变向(LSC)动作的下肢踝、膝和髋三关节矢状面的运动学和动力学特点,并与平地跑动侧切变向(SC)对比分析、探讨这些差异对下肢关节造成的影响。方法:以14名高水平足球运动员为背景的大学生完成落地侧切和平跑侧切动作时的下肢运动学和动力学数据进行采集与分析。结果:LSC动作的踝、膝关节ROM和关节角速度显著增加,髋关节ROM则呈相反趋势(P<0.05或P<0.01);LSC的踝、膝和髋关节力矩峰值,踝、髋关节功率峰值呈现显著大于SC(P<0.01),膝关节功率峰值小于SC(P<0.05);LSC在水平向后、垂直向上地反峰值及峰值加载率有明显的增加(P<0.01),水平向右地反无明显差异(P>0.05)。结论:LSC虽然略降低了膝关节功率峰值,但其余所有运动学、动力学及GRF都预示其下肢关节所承受的损伤风险更高,尤其是踝关节和膝关节。踝关节的高功率和跖屈肌的持续紧张、伸膝力矩和三维地反的显著升高,使得该动作比公认高损伤风险的平跑侧切损伤风险几率更大。 相似文献
16.
不同运动项目运动员髋关节屈伸肌群横断面积与力矩特征的相关研究 总被引:5,自引:0,他引:5
通过对足球、速度滑冰运动员髋关节屈伸肌群横断面积及力学相关指标的测定,探讨不同运动项目的运动员髋关节屈伸肌群形态特征与肌肉收缩效应的特点以及两者间的内在规律,为运动员训练水平的评估及科学选材等提供理论指导。肌肉横断面积采用螺旋CT进行断层扫描,影像分析采用MoticImagesAdvanced3 0测试系统软件,力量测试采用美国Cybex Norm等速测力系统,数据处理采用SPSS 8 0软件。结果表明:足球运动员大腿肌肉横断面积大于速滑运动员,差异主要表现在股四头肌和股后肌群。在相同测试速度下,足球与速度运动员髋关节屈伸时,左右两腿肌肉收缩力量无明显差异。但不同项目间,同一肌群在不同关节运动,不同速度下,则表现出肌肉力量的明显不同。髋关节屈伸运动时,股四头肌与股后肌群横断面积与力矩的相关程度,足球以屈为明显,速滑以右伸为明显。 相似文献
17.
对2007-2012年间广东省集体小球类项目(手球、曲棍球、垒球)运动损伤后等速肌力康复效果进行归纳总结。应用等速肌力测试系统为广东集体小球项目运动员提供了419人次5 872关节次等速康复训练,康复前后进行角速度为60°/s的膝、肩关节等速肌力测试,以及角速度为30°/s的踝关节等速肌力测试,结果发现:(1)膝关节损伤发生率最高,达到60.88%,踝、肩也是损伤多发部位,整体看来,下肢损伤发生率高于上肢。(2)各项目运动员经过一段时间的等速康复训练后,关节等速肌力得到显著提高。结论:(1)在集体小球项目中,运动损伤发生部位与运动专项特点密切相关,损伤发生率从高到低依次为膝、踝、肩、腰背、髋。(2)等速肌力康复作为一种康复手段,在集体小球项目运动员运动损伤过程中效果明显,提供了客观可靠的量化指标。 相似文献
18.
Trunk rotation torques through the hip joints during the one- and two-handed backhand tennis strokes
The aim of the present study was to compare kinetically the roles of the lower extremities in generating trunk rotation in the tennis one-handed and two-handed backhand strokes. Fourteen male collegiate tennis players, seven with a preference for the one- and seven with a preference for the two-handed technique, were recruited as participants. The motion of each backhand stroke was filmed using two high-speed cine-cameras, and the ground reaction forces on the feet were measured separately using two force platforms to determine the joint moments and joint reaction forces at the hip, knee and ankle joints. A significant difference in hip joint moments between the two types of stroke was found in the phase from the start of forward rotation of the pelvis to the start of racket forward movement. For trunk rotation, the one-handed backhand players exerted a large joint moment in the front leg, whereas the two-handed backhand players exerted a large joint moment in the back leg. The exertion of a large hip joint moment in the latter stroke was comparable with the exertion in a forehand stroke reported previously. 相似文献
19.
Tyler J. Stidwill Rene Albert Turcotte Phil Dixon David J. Pearsall 《Sports Engineering》2009,12(2):63-68
The purpose of this study was to develop a portable force measurement system for ice hockey skating. The system consisted
of three strain gauge pairs affixed to an ice hockey skate’s blade holder with wire leads connected to a microprocessor controlled
data acquisition device carried in a backpack worn by the skater. The configuration of the strain gauges simultaneously determined
the vertical and medial–lateral force components experienced by the blade holder with a resolution accuracy of 1.9 N and a
coefficient of variation of 9.2%. On-ice testing of this system with subjects performing forward start, acceleration, and
constant velocity skating permitted unencumbered, natural movement and demonstrated clear, unambiguous signal responses, high
trial-to-trial repeatability, and easy data retrieval. The practicality and accuracy of this testing approach have many applications,
such as a quantitative tool for skating force assessment to aid athletes and coaches, as well as providing the means to examine
other skill-specific dynamics. 相似文献
20.
Trunk rotation torques through the hip joints during the one- and two-handed backhand tennis strokes
The aim of the present study was to compare kinetically the roles of the lower extremities in generating trunk rotation in the tennis one-handed and two-handed backhand strokes. Fourteen male collegiate tennis players, seven with a preference for the one- and seven with a preference for the two-handed technique, were recruited as participants. The motion of each backhand stroke was filmed using two high-speed cine-cameras, and the ground reaction forces on the feet were measured separately using two force platforms to determine the joint moments and joint reaction forces at the hip, knee and ankle joints. A significant difference in hip joint moments between the two types of stroke was found in the phase from the start of forward rotation of the pelvis to the start of racket forward movement. For trunk rotation, the one-handed backhand players exerted a large joint moment in the front leg, whereas the two-handed backhand players exerted a large joint moment in the back leg. The exertion of a large hip joint moment in the latter stroke was comparable with the exertion in a forehand stroke reported previously. 相似文献