The procedure is based upon recent advances in multibody dynamics and in Fourier analysis.
本方法应用了多体动力学和傅利叶分析的最新成就。
Based on flexible multibody dynamics, a dynamic modeling method on multibody systems with changing topologies is proposed.
基于柔性多体动力学理论,提出了变拓扑结构多体系统动力学建模方法。
Based on an established multibody dynamics model of farm transport vehicles, with the help of the code ADAMS, the ride comfort simulation method was studied.
在建立农用运输车整车多体动力学模型的基础上,借助于软件ADAMS和笔者编制的软件研究了农用运输车平顺性仿真的方法。
Computational multibody dynamics and virtual prototyping technology are brand new modeling and analysis methods for simulating the landing process of an aircraft.
而计算多体系统动力学和虚拟样机技术的出现,使得对于飞机着陆过程起落架和机身动态响应的模拟更逼近于现实。
Separating solving logic from multibody dynamics model, the consistency of status of constraint and force element component was achieved in multibody dynamics system simulation.
这种解算模式,实现了多体动力学解算仿真中,模型与解算逻辑的分离,维护了系统仿真中构件、铰约束、力元等组件的状态一致性。
By using transfer matrix method of multibody system and launch dynamics theory, the relations between the firing orders and performance of MLRS were established.
应用多体系统传递矩阵法和发射动力学理论,建立了多管火箭武器射击顺序与多管火箭武器系统性能之间的定量关系。
This paper analyses the development difficulty of a large flexible rotating platform and brings out a method to realize modeling and simulation with dynamics of multibody system.
在分析了大型柔性转台研制难点的基础上,提出了采用多柔体动力学方法进行大型柔性转台系统的建模与仿真。
This paper summarizes the studies on flexible multibody system dynamics in recent years.
全面综述了柔性多体系统动力学近年来的研究成果。
Based on multibody system dynamics method and ADAMS software platform, a rigid-flexible coupling multi-body model is built for vehicle dynamics simulation.
利用多体动力学方法建立了基于ADAMS软件平台的整车刚柔耦合多体系统操纵动力学仿真分析模型。
The differential-algebraic equations are often chosen as the mathematical models of the dynamics of multibody systems in order to achieve the numerical emulation for the multibody systems.
多体系统进行数值仿真时,很多选择了微分代数混合方程作为多体系统动力学数学模型。
In this paper, a new computer-oriented method of obtaining the numerical solution of the dynamics of open loop multibody system is developed.
提出了获得开环多体系统动力学数值解的新方法。
In multibody system dynamics, the orthogonality of eigenvector is the precondition to solve the dynamic response of system using the classical modal analysis methods.
特征矢量的正交性是用模态方法求解多体系统动力响应的前提条件。
Modeling and numerical solutions are the kernel contents of dynamics of multibody systems analysis.
建模方法和数值求解是多体动力学分析的核心内容。
The adjoint variable method for design sensitivity analysis of multibody system dynamics based on ordinary differential equations is presented.
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 steps of analyzing dynamics of flexible multibody systems are further discussed, then dynamics analysis and calculation are dealt with the dome model established in this article.
进一步讨论了多柔体系统动力学分析步骤,对于本文所提出的整流罩模型进行了动力学分析和计算。
The models for electric power steering system and active suspension system and vehicle dynamics model are set up based on multibody theory.
多体理论的基础上,设置了电动助力转向系统和主动式悬挂系统和车辆动力学模型的模型。
Descartes coordinate modeling of multibody systems dynamics is adopted in the thesis.
采用多体动力学笛卡尔坐标建模形式。
The concept of "path" has been introduced to make the formulation for the kinematics and dynamics of multibody system more concise and least information needed.
引入路的概念,它使多体系统运动学和动力学建模更简洁,使用最少的信息。
This thesis is based on the investigation on "Dynamics Response of Flexible Multibody Systems" which is a cooperative project with City University of Hong Kong.
本硕士学位论文是参加与香港城市大学合作项目——柔性多体系统动力学问题研究的基础上完成的。
Advanced Dynamics: Rigid body, Multibody, and Aerospace Applications.
高级动力学:刚体,多体,和航空航天应用。
In this paper, theory and technology of launch dynamics of multibody system and its applications in design and test of firing precision and safety for rockets and gun weapons are studied.
文章研究多体系统发射动力学理论与技术及其在火箭和火炮武器射击精度和安全性设计与试验中的应用。
The formulation of kinematics and dynamics of multibody system based on the fully Cartesian coordinates has an important advantagement in computational efficiency.
最后,通过对一个闭环柔性多体系统的动力学与控制仿真计算的实现,表明上述方法的可行性。
The numerical precision and formulation efficiency of multibody system dynamics directly depend on the choosing the local frame coordinates and global coordinate, and on the formulation methods.
流形上动力学方程的建立与全局坐标和局部坐标的选择,以及建模方法有着直接的联系,决定着动力学模型的建模效率和数值运算精度。
Applied Dynamics: With Applications to Multibody and Mechatronic Systems, 2nd, Completely Revised Edition.
应用动力学:多体和机电一体化系统应用,第二,完全修订版。
Applied Dynamics: With Applications to Multibody and Mechatronic Systems, 2nd, Completely Revised Edition.
应用动力学:多体和机电一体化系统应用,第二,完全修订版。
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