并且结合一类武器系统虚拟样机的开发实例详细介绍了MATLAB工具的应用和集成。
Application and integration approach of MATLAB was discussed in detail through a use case in development of a certain type weapon system virtual prototype system.
复杂系统的特点决定了开发过程的高风险性和有限逆转性,虚拟样机技术是解决这一问题的一个有效途径。
The features of complex system make the development highly risky and hard reverse, building virtual prototype is an effective process to achieve this problem.
这些理念将指导整个复杂产品虚拟样机工程信息管理系统的设计、开发和应用实施。
At last, an information management platform of virtual prototype engineering for complex product is designed, implemented and applied.
依据多管火箭发射随机动力学的理论分析,运用虚拟样机软件的二次开发功能,建立了多管火箭发射系统随机仿真模型。
According to the theory of the launching random dynamic of MLRS, the virtual prototype software was re-designed for the random simulation model of MLRS.
以ADAMS/CAR二次开发模块为平台,建立了国产某小型客车虚拟样机的多体系统动力学仿真模型。
On the platform of the ADAMS/CAR secondary development module, the MB dynamics simulation model of the virtual prototype of a domestic light bus has been created.
它支持在系统编程,在系统重构器件的逻辑功能,很适合产品的样机开发。
They are the one's that can be programmed and reconfigured the logic functions while on the system board which is suitable for faster prototyping.
标准方案历经了方案论证、系统仿真、样机研究、IC流片和产品机顶盒样机开发等多个研发阶段。
DMB-T has passed the phase of Project Demonstration, system simulation, Re search of Functional system, IC chips and STB product. After several kinds of lab.
作者认为,复杂产品虚拟样机的开发工作已构成一个系统工程——可称为复杂产品虚拟样机工程。
The virtual prototyping technology for complex product has become a systemic engineering in authors viewpoint, namely virtual prototyping engineering for complex product.
开展回旋加速器虚拟控制系统研究,是回旋加速器虚拟样机设计的迫切需求,对于提高对回旋加速器控制系统的开发能力和应用水平,具有重要的意义。
The study of cyclotron virtual control system is the need of cyclotron virtual prototyping. And it is significant to improve the develop level of cyclotron control system.
本文利用虚拟样机技术,对磁悬浮转子系统虚拟样机及建模技术进行研究,旨在提高磁悬浮转子系统的设计质量、减少开发时间、降低开发成本。
To improve design quality and reduce the developing time and cost of MSR system, modeling techniques and virtual prototype of MSR systems are researched.
分析了磁悬浮转子系统虚拟样机开发的支撑技术,包括系统参数化建模技术、多领域系统模型集成技术、ADAMS二次开发技术以及底层支撑技术等。
Then, diversified techniques of the system are researched, which are parametric modeling, multi-disciplinary field modeling, secondary development techniques of ADAMS, and so on.
分析了磁悬浮转子系统虚拟样机开发的支撑技术,包括系统参数化建模技术、多领域系统模型集成技术、ADAMS二次开发技术以及底层支撑技术等。
Then, diversified techniques of the system are researched, which are parametric modeling, multi-disciplinary field modeling, secondary development techniques of ADAMS, and so on.
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