人体运动的检测与跟踪是人体生物力学研究的主要内容,近年来日益受到人们的广泛关注。
The detection and tracking of human motion is key to biomechanics, and attach more and more importance recent few years.
为了探讨符合人体生物力学特征的最佳起跑姿势,通过查阅大量的文献资料,对世界优秀短跑运动员的蹲踞式起跑姿势进行运动生物力学比较分析。
The paper aims to explore the best position of crouch start according to biomechanical characteristics by documentary analysis and comparative analysis of world top sprinters body positions.
活体测定人体环节参数至今仍是运动生物力学研究中的一个困难问题。
In the studying of biomechanics of sports, it is still a subtle problem to determine human body segment parameters from living subjects.
作者根据人体动脉脉搏波传输的生物力学原理,设计和研制了包括心功能常用指标在内的一台雏型脉搏波传输检测系统。
A prototype device for measuring hemodynamic parameters and evaluating heart function has been developed on the basis of the theory of pressure pulse wave transmission in human arterial system.
人体惯性参数是进行生物力学分析、人类工程学等工作时均需要的人体基本参数。
The inertia parameters of the human body are the basic parameters required in biomechanical analysis and ergonomics etc.
系统还配有万向固定支架,可灵活地对人体各部位软组织生物力学特性进行定量在体评价。
The system is fixed on a universal stand so that it can quantitatively measure the biomechanical parameters of soft tissues over the different parts of body in vivo.
人体整体及环节的转动惯量是研究人体运动生物力学的基本参数。
The rotational inertia of human entire body and each segment is one of the fundamental parameters in sports biomechanics research.
运用运动生物力学关于“人体平衡”的原理指导教学,可收到事半功倍的效果。
We will yield twice the result with half the effort if we quide our teaching through the principle of "Balance of the Body" in motorial mechanics.
该有限元模型的建立为人体脊柱腰骶关节的生物力学分析及器械植入研究提供了更为详细准确的计算模型。
The proposed model provided a more detailed and accurate computational model for the biomechanical analysis of lumbosacral joint and the study of instrument implant.
如何采用先进的测试方法,研究、分析和评价人体肌肉的力量参数,是生物力学研究人体肌肉力量的重要内容之一。
How to make use of advanced testing methods to study, analyze and evaluate the parameters of muscle strength is important content of studying muscle strength in the arena of biomechanics.
目的:探讨个性化设计的人工膝关节植入人体后的生物力学响应。
Objective: To investigate the biomechanical performance of individualized design artificial knee joint after surgical operation.
构造合适的运动技术动作人体模型和选择适当的三维计算机编程技术,是实观运动生物力学运动技术动作三维计算机立体显示的关键。
How to select proper human body models and programming languages is the key for realize 3d computer displaying on sports technique in sports biomechanics.
构造合适的运动技术动作人体模型和选择适当的三维计算机编程技术,是实观运动生物力学运动技术动作三维计算机立体显示的关键。
So it directly serves practice sports works. How to select proper human body models and programming languages is the key for realize 3D computer displaying on sports technique in sports biomechanics.
人体对冲击加速度耐受限度的研究已经成为现代生物力学研究的焦点,本文综述该领域的研究进展。
The study on human tolerance to impact acceleration has become a cynosure in the realm of modern biomechanics. So...
实验表明,新建模方法适用于传感器数据驱动人体模型的实时运动再现,并能够逼真地体现人体运动的生物力学特征。
The experimental results show that the proposed model is suitable for sensor data-driven virtual-human in real-time animation and has good biomechanics characteristics in representing human motion.
另外,在人体工程学研究、模拟训练、生物力学研究等领域,运动捕捉技术同样大有可为。
Also in ergonomics research, simulation training and biomechanical research field, motion capture technology is also promising.
对体育运动中人体肌肉机能和生物力学研究的重要性及方法进行论证。
Also, the research of biomechanics of human muscles in sports, including importance, feasibility and method, are demonstrated in the paper.
本文介绍了利用生物力学原理,自制人体损伤撞击设备的研制过程和工作原理,结构特点。
This article describes how to design the impact test machine and its working principle, architecture characteristics.
肌肉功能和力学特性是人体运动的基础,肌肉力学是运动生物力学研究和运动训练的基础。
Muscular function and mechanics characteristics are a basis of human motion, and muscle mechanics is a basis of sports biomechanics research and sports training.
为了研究行人碰撞事故中人体下肢的生物力学响应和损伤机理,建立了一个人体下肢有限元模型。
In this paper, the failure mechanism and control technology of fretting fatigue have been studied by means of fatigue testing and finite element analysis.
为了研究行人碰撞事故中人体下肢的生物力学响应和损伤机理,建立了一个人体下肢有限元模型。
In this paper, the failure mechanism and control technology of fretting fatigue have been studied by means of fatigue testing and finite element analysis.
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