建立一种心血管循环系统的计算机仿真模型,即描述心血管循环系统内血流动力学变量变化规律的状态方程。
This paper presents a computer simulation model of the cardiovascular circulation system, which describes the blood flow dynamic law in the cardiovascular system by the state equation.
而安慰剂组的各项指标无任何改善,包括PET区域心肌血流量,冠脉血流量,运动耐量或者血流动力学变量。
Subjects in the placebo group did not realize any benefits on PET regional myocardial blood flow, coronary flu, exercise tolerance or hemodynamic variables.
我们正在努力通过创建另外的CFG文件,将准确地模拟飞行参数的数学变量此动力学模型。
We are working to create this dynamics model by creating addition variable on the CFG file that will accurately simulate our mathematical flight parameters.
基于常微分方程数学模型建立了多体系统动力学设计灵敏度分析的伴随变量方法。
The adjoint variable method for design sensitivity analysis of multibody system dynamics based on ordinary differential equations is presented.
对慢变量进行非线性逆控制器的设计可使飞行员控制飞机慢动力学,即迎角、侧滑角和速度矢量滚转角。
Another nonlinear inversion controller was designed for the slow variables. It allows the pilot to control the slow dynamics, the Angle of attack, side-slip Angle and the velocity bank Angle.
在求解动力学系统的方程中,动力学系统的第一积分与积分不变量是求解运动方程积分理论的重要内容之一。
The first integration and integrated invariant of dynamic system belongs to important contents of solving equations of motion integrated theory during solving equations in dynamic system.
结果表明:用并矢分析与并矢场论可以简洁且严密地证明洛伦兹变换下电动力学的不变量。
This paper shows that dyadic theory is a brief and strict method to prove the invariance of the electrodynamics under Lorentz transformation.
在此基础上,对物料抓取机械手运动学和动力学进行了分析和设计,得出了关节变量和操作空间在位置、速度以及加速度之间的对应关系。
On the basis of this design, the kinematics is analyzed and the relationship between arthrosis parameters and manipulator space in position, speed and acceleration is given.
在车辆动力学分析的基础上,建立了以纵向速度、横向速度、横摆角速度为状态变量的车辆纵横向耦合的动力学模型。
A longitudinal and lateral decoupled dynamics model was presented based on the dynamics analysis, as the longitudinal velocity, lateral velocity and yaw rate as the states.
通过定义状态变量,得到了壳体动力学问题的状态空间控制微分方程。
Defining a state-space vector, the decoupled equation may be cast into the governing differential equation, of the statespace form.
首先根据动力学知识分析影响铲斗重量的所有变量,依据这些变量的特征和范围选择合适的传感器来进行测量。
All variables that may influence the shovel weight are analyzed by dynamic knowledge and suitable sensors are selected for measuring them according to their characteristics and scope.
研究了随机变量(交换耦合参量或外加磁场)满足高斯分布和双高斯分布时该系统动力学行为。
The dynamics of the system when the random variables satisfy the Gaussian and double-Gaussian disorder are studied.
永磁同步直线伺服电机的机电动力学系统是一个多变量、非线性、强耦合的系统。
The electromechanical dynamics system of permanent magnetic synchronous linear motor is a multivariable, nonlinear and strong coupling system.
永磁同步直线伺服电机的机电动力学系统是一个多变量、非线性、强耦合的系统。
The electromechanical dynamics system of permanent magnetic synchronous linear motor is a multivariable, nonlinear and strong coupling system.
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