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足底压力测量技术的发展现状与应用研究 总被引:17,自引:1,他引:16
伴随着新型传感器技术的压力测量仪器的发展与计算机技术的广泛应用,足底压力测量技术在运动生物力学步态研究,临床步态研究以及临床医疗中积极应用,其技术不断的发展、成熟.足底压力研究,揭示了人体在不同状态下的足底压力分布特征和模式,以及运动过程中足的动力性特征.同时,足底压力测量技术在临床步态研究和临床医疗中的不断应用与深入,已逐渐成为临床生物力学研究和诊断病足与足部康复评定的重要手段.通过足-鞋界压力的研究,也为指导人们健康穿鞋与科学制鞋带来了科学理论依据. 相似文献
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应用运动生物力学原理,对乒乓球运动中三种步法的足底压力进行分析,得到以下主要结论:乒乓球典型步法动作过程中双脚的足底压力主要承载区域集中在足前区,足中区受力不明显。击球发力脚足后区足底压力峰值交叉步步法最大,并步步法次之,跨步步法最小。前足中区为足前区较为稳定的主要受力区域,前足外侧区和前足内侧区所受足底压力峰值的大小与步法的动作形式有关。 相似文献
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胡伟 《哈尔滨体育学院学报》2007,25(3)
根据艺术体操运动专项运动生物力学研究的现状、运动生物力学学科发展趋势以及艺术体操运动发展的实际需求,对运动生物力学在艺术体探运动中的应用的研究领域和研究方法的发展趋势进行展望。运用多种运动生物力学的理论力学和实验研究相结合的方法,对艺术体操运动中的多个领域进行分析和研究,是运动生物力学在艺术体操运动项目中的研究发展趋势,以期为运动生物力学如何更好地结合艺术体操专项特点为艺术体操运动实战服务提供借鉴。 相似文献
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笔者论述了现代科学技术对运动生物力学形成和发展的作用。人们思维方式的更新 ,认识事物能力水平提高 ,各学科知识相互交叉渗透 ,使运动生物从生物力学中分离出来 ,形成了一独立学科。现代科学技术的发展不断丰富、完善运动生物力学理论 ;电子技术、计算机、新材料技术的出现为运动生物力学实验研究提供了新的研究方法和测试手段。现代科学技术将与运动生物力学发展更加紧密结合 ,进一步拓展运动生物力学应用研究领域。 相似文献
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《湖北体育科技》2019,(8)
目的了解我国运动生物力学的发展历程和近十年国内外研究的热点及其差异,从而对我国运动生物力学的发展提供理论依据。方法借助知识图谱软件CiteSpaceⅤ对在中国知网数据库和Web of Science数据库核心数据集搜集的文献进行了可视化分析和比较。结果和结论我国运动生物力学研究热点主要为基础理论研究、方法学研究、运动技术动作分析、运动损伤与康复。对比国内外近10年运动生物力学的研究得出:在国内的研究中,关于竞技运动中技术动作分析的研究和运动损伤与康复和健康促进的研究在时间上都明显落后于国外的研究;我国当下的研究热点是传统体育项目和航空航天领域。在国外的研究中,运动损伤的康复和预防是其研究重点,针对国际重大赛事的研究比较及时。 相似文献
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李树屏 《武汉体育学院学报》1983,(4)
运动生物力学是一门新兴的体育基础理论学科,它以边缘学科特有的旺盛生命力,在生命运动的研究领域获得了迅速发展。有人曾将运动生物力学的发展趋势归纳为三个方面、即应用研究、基础研究和理论研究。应用研究主要是研究人体整体的运动规律,为最佳技术结构、为运动器械的改进及运动创伤的防治提供理论依据;基础研究注重探索人体走、跑、跳等基本动作的力学特征;理论研究则集中在研究方法的改进与提高及运动器官的力学性能方 相似文献
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运动生物力学多参数同步测试系统的研究与开发 总被引:2,自引:0,他引:2
对众多的运动生物力学检测手段实现同步的统一处理,已经成为运动生物力学研究方法的一个重要方面,对提高运动生物力学科学研究能力和水平,促进运动生物力学学科发展具有举足轻重的意义.但由于测试仪器的生产厂商不同,造成信号规格和同步方式不统一,给这些仪器测得数据的同步造成困难.结合运动生物力学科研的实践,在应用现有运动生物力学测试仪器基础上开发出一套集视频、表面肌电、足底压力、三维测力台、激光测速于一体的同步测试系统.该系统首次将各仪器的相对延迟时间考虑到同步处理中,具有同步精度高,系统硬件传输距离远、稳定、可靠,系统软件界面友好、数据显示直现等特点,具有较好的应用与推广价值.此外,对其他测试仪器数据的同步处理也可提供一些思路. 相似文献
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李静先 《天津体育学院学报》2014,29(2):93-99
下肢骨关节炎是导致残疾的最常见疾病之一,也是对患者及家庭、医疗系统及社会带来最大影响的运动系统的主要疾患。骨关节炎是包括
关节力学变化(如下肢骨骼力学轴线排列异常,关节负荷分布异常,活动过程中关节力矩异常)、韧带走向异常、软骨退化或软骨成分降解和肌肉神
经控制功能异常等复合因素引起的全关节疾患。尽管其确切的发病机制仍不明了,关节生物力学在其发生和病程发展中的作用已为大量的前瞻性
研究和持续数10年之久的长期追踪研究所证实。综述骨关节炎生物力学及病理机制的研究状况,生物力学干预在骨关节炎治疗康复中的应用,以
及太极拳的生物力学特征及其在骨关节炎治疗康复中应用的最新研究进展。基于目前上述领域和太极拳生物力学特征的科学研究状况分析,以及
美国风湿病学会在2012年发表的最新骨关节炎非手术和药物治疗指引中将太极拳列为膝骨关节炎运动干预方式之一所带来的国际影响,为了深入
探索太极拳在下肢骨关节炎治疗康复效果的机制,以及发展有科学研究事实支持的太极拳运动干预康复方案,未来此领域的研究需要致力于研究
骨关节炎患者身体活动时的关节生物力学变化,典型太极拳运动的生物力学特征,以及骨关节炎患者在太极拳运动干预过程中下肢关节力学的变
化特征。 相似文献
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采用德国Novel公司的Pedar鞋垫式(in-sole)足底压力测量系统,对40名中学生赤足与穿着慢跑鞋在1.5m·s-1、3.0m·s8-1和5.0m·s-13个速度下的步态周期、最大地面反作用力、最大足底压强、平均足底压强和力量-时间积分值进行分析,探讨赤足运动与穿鞋运动的生物力学特性,以及引起赤足和穿鞋运动之间差异的原因,为指导青少年健康运动提供科学、可靠的参考依据.研究结果证实,赤足运动与穿鞋运动在步态、用力方式、压力分布上都存在显著差异,穿着慢跑鞋运动可有效降低运动损伤出现的几率,为青少年的健康运动提供基础保障. 相似文献
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高跟鞋-步态-损伤之生物力学研究 总被引:1,自引:0,他引:1
高跟鞋状态下的“足一鞋”生物力学研究已引起学界和业界的高度重视。文章在综合国内外研究文献的基础上,系统总结了高跟鞋状态下的步态特征及运动损伤之生物力学机理,并对高跟鞋及由此引发的运动损伤等研究热点进行了探讨。高跟鞋状态的步态特征表现为鞋跟高度增加会使足底压力发生重新分配即足前掌压力增大、足后掌压力减小。高跟鞋运动损伤的研究表明穿着高跟鞋不仅能引发足部疾病,还可引发腰背疼痛、应力性骨折、骨关节炎等疾病。预计对不同跟高进行的高敏度研究及高跟鞋对上肢乃至全身骨骼肌肉系统影响的生物力学研究都将成为高跟鞋状态的未来研究趋势。 相似文献
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以上海市蹦床队5名一线男子运动员为研究对象,通过视频与足底压力同步测试的研究方法,对蹦床运动员的预跳和5个基本的技术动作进行测试,研究男子蹦床运动员在完成不同基本技术动作过程中足底压力的分布的特征及足底压力分布的一般规律。为蹦床运动员进行科学训练提供理论依据,为蹦床运动员运动技术诊断提供客观指标。研究结论:运动员完成不同基本技术动作足底压力分布特征规律相同,足底压力合力变化、压强峰值分布和压力中心变化无显著性差异。触网起跳过程双足压力合力呈单峰曲线网面达最低点时双足压力合力最大,双足压力合力最大值可达体重的3.04倍。压强峰值表现为双足第五趾骨区较高。运动员在起网蹬伸阶段双足呈现出压力中心偏移现象,与运动员起跳过程中双足用力不均有关。 相似文献
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Nahoko Sato Hiroyuki Nunome Luke S. Hopper Yasuo Ikegami 《Sports biomechanics / International Society of Biomechanics in Sports》2019,18(1):28-38
Ankle taping is commonly used to prevent ankle sprains. However, kinematic assessments investigating the biomechanical effects of ankle taping have provided inconclusive results. This study aimed to determine the effect of ankle taping on the external ankle joint moments during a drop landing on a tilted surface at 25°. Twenty-five participants performed landings on a tilted force platform that caused ankle inversion with and without ankle taping. Landing kinematics were captured using a motion capture system. External ankle inversion moment, the angular impulse due to the medio-lateral and vertical components of ground reaction force (GRF) and their moment arm lengths about the ankle joint were analysed. The foot plantar inclination relative to the ground was assessed. In the taping condition, the foot plantar inclination and ankle inversion angular impulse were reduced significantly compared to that of the control. The only component of the external inversion moment to change significantly in the taped condition was a shortened medio-lateral GRF moment arm length. It can be assumed that the ankle taping altered the foot plantar inclination relative to the ground, thereby shortening the moment arm of medio-lateral GRF that resulted in the reduced ankle inversion angular impulse. 相似文献
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Wen-Lan Wu Hsiu-Tao Hsu I-Hua Chu Feng-Hua Tsai Jing-Min Liang 《Sports biomechanics / International Society of Biomechanics in Sports》2017,16(2):210-219
In order to help coaches analyse the techniques of professional in-line speed skaters for making the required fine adjustments and corrections in their push-off work, this study analysed the specific plantar pressure characteristics during a 300-m time-trial test. Fourteen elite in-line speed skaters from the national team were recruited in this study. The total completion time of the 300-m time-trial test, duration of each skating phase, and plantar pressure distribution were measured. The correlation between plantar pressure distribution and skating performance was assessed using Pearson correlation analyses. The results showed that the contact time of the total foot and force–time integral (FTI) in the medial forefoot were significantly correlated with the duration of the start phase, and the FTIs in the medial forefoot of the gliding (left) leg and lateral forefoot of the pushing (right) leg were significantly correlated with the duration of the turning phase. The maximum force in the medial heel, medial forefoot, and median forefoot and the FTI in the medial heel and medial forefoot were significantly correlated with the duration of the linear acceleration phase. The results suggest that a correct plantar loading area and push-off strategy can enhance the skating performance. 相似文献
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YaoHui K. Chua Raymond K.K. Quek 《Sports biomechanics / International Society of Biomechanics in Sports》2017,16(1):13-22
This study aimed (1) to profile the plantar loading characteristics when performing the basketball lay-up in a realistic setting and (2) to determine the number of trials necessary to establish a stable mean for plantar loading variables during the lay-up. Thirteen university male basketball players [age: 23.0 (1.4) years, height: 1.75 (0.05) m, mass: 68.4 (8.6) kg] performed ten successful basketball lay-ups from a stationary position. Plantar loading variables were recorded using the Novel Pedar-X in-shoe system. Loading variables including peak force, peak pressure, and pressure–time integral were extracted from eight foot regions. Performance stability of plantar loading variables during the take-off and landing steps were assessed using the sequential averaging technique and intra-class correlation coefficient (ICC). High plantar loadings were experienced at the heel during the take-off steps, and both the heel and forefoot regions upon landing. The sequential estimation technique revealed a five–eight trial range to achieve a stable mean across all plantar loading variables, whereas ICC analysis was insensitive to inter-trial differences of repeated lay-up performances. Future studies and performance evaluation protocols on plantar loading during basketball lay-ups should include at least eight trials to ensure that the measurements obtained are sufficiently stable. 相似文献
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肌电与足底压力同步测量在对我国优秀速滑运动员
蹬冰单步周期研究中的应用 总被引:14,自引:4,他引:10
目的:旨在建立肌电与足底压力同步模型,从身体内部工作状态的角度探讨速度滑冰的一般规律。方法:同步测量速滑运动肌电与足底压力以及视频信号,建立速度滑冰直道蹬冰单周期模型,揭示运动员身体内、外参数的变化规律。结果:建立了速滑蹬冰单周期模型,提出膝角120°位置处的爆发力为速滑的主要用力特征,将速滑蹬冰单周期细分为6个阶段。结论:肌电与足底压力同步测量、同步肌电分析方法的结合能有效地获取速滑运动身体信息和揭示运动规律,是一种有力的体育科学研究方法。 相似文献
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The aim of this study was to investigate, for typical shoes and surfaces used in tennis, the relative role of the shoe and
surface in providing cushioning during running. Five test surfaces ranging from concrete to artificial turf were selected,
together with two shoe models. Impact absorbing ability was assessed mechanically using drop test procedures and biomechanically
using peak magnitude and rate of loading of impact force and peak in-shoe pressure data at the lateral heel. Differences in
biomechanical variables between shoe-surface combinations were identified using a two-way ANOVA (p < 0.05). Mechanical test results were found to rank the surfaces in the same order regardless of the shoe model, suggesting
that the surface is influential in providing cushioning. However, for all mechanical and biomechanical (p < 0.05) variables representing impact absorbing ability, it was found that the difference between shoes was markedly greater
than the differences between surfaces. The peak heel pressure data were found to rank the surfaces in the same order as the
mechanical tests, while impact force data were not as sensitive to the changes in surface. Correlations between mechanical
and biomechanical impact absorption highlighted the importance of testing the shoe-surface combination in mechanical tests,
rather than the surface alone. In conclusion, mechanical testing of the shoe-surface combination was found to provide a strong
predictor of the impact absorbing ability during running if pressure data were used. In addition, for typical shoe-surface
combinations in tennis, the shoe was found to have more potential than the surface to influence impact loading during running.
Finally, in-shoe pressure data were found to be more sensitive than force plate data to changes in material cushioning. 相似文献