SYNTHESIS OF PROGRAM AND FINITE LAWS OF MOTION IN ANALYTICAL MODELS OF CONTROL OF THE FINAL STATE OF BIOMECHANICAL SYSTEMS

IF 0.2 Q4 SPORT SCIENCES
V. Zagrevskiy, O. Zagrevskiy
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引用次数: 1

Abstract

Aim. The article deals with developing a computer program to simulate the movement of the object with a given initial and final speed and fixed travel time. Materials and methods. The analysis, as a method of biomechanics, allows us to assess the biomechanical state of the athlete in real sports exercises. The function of motion synthesis is the ability to predict the trajectory and behavior of the biomechanical system at specified reference points of the phase structure of the simulated motion. The article deals with one of the methods of biomechanical synthesis of movements: synthesis of control of the final state of biomechanical systems, based on the reduction of finite control to a given program control after attenuation of the transient component of acceleration. The mathematical description of the object motion is based on the known law of finite control with feedback. Integration of the mathematical model constructed in the form of the differential equation of the second order was carried out by one of the numerical methods of integration: Runge–Kutta method of the fourth order of accuracy. Consideration of the method is based on a mathematical apparatus describing the motion of a material point, which can be represented by a common center of mass of a biomechanical system, a joint, a center of mass of a segment, etc. Results. The mathematical model of the motion of a material point with the given kinematic parameters of motion at the initial and final moments is implemented in a computer program in the Visual Basic 2010 language environment based on the integrated development environment Visual Studio Express 2013. The output provides numerical and visual support for simulation results. Conclusion. It is shown that the developed computer model of the method always implements the goal of motion: to transfer an object from a given initial state by speed to a given final state for a fixed time of movement.
生物力学系统最终状态控制分析模型中程序和有限运动规律的综合
的目标。本文讨论了一个计算机程序的开发,以模拟物体的运动,在给定的初始和最终速度和固定的旅行时间。材料和方法。该分析作为生物力学的一种方法,使我们能够评估运动员在真实运动中的生物力学状态。运动综合的功能是预测生物力学系统在模拟运动相结构的特定参考点上的轨迹和行为的能力。本文讨论了一种生物力学合成运动的方法:生物力学系统最终状态控制的合成,基于有限控制在加速度瞬态分量衰减后转化为给定程序控制。物体运动的数学描述是基于已知的有限反馈控制定律。采用四阶精度的龙格-库塔积分法对二阶微分方程形式的数学模型进行积分。该方法的考虑是基于描述质点运动的数学装置,质点可以用生物力学系统的共同质心、关节、段的质心等来表示。结果。在Visual Basic 2010语言环境下,基于Visual Studio Express 2013集成开发环境,建立了给定运动初始和最终时刻运动学参数的质点运动数学模型。输出为仿真结果提供了数值和视觉支持。结论。结果表明,该方法所建立的计算机模型始终能实现运动目标:在固定的运动时间内,将物体从给定的初始状态以速度转移到给定的最终状态。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
Human Sport Medicine
Human Sport Medicine SPORT SCIENCES-
CiteScore
0.70
自引率
50.00%
发文量
0
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