avionic systems meaning in Chinese
航空系统
Examples
- Thus , we can construct high performance airplane optic fiber control system on the basis of it . the existing avionic system has already set higher standard of the exchanging capability the data information
As1773总线具有可靠性高、抗电磁干扰能力强、重量轻、组网方式灵活等优点,可在它基础上组成高性能的飞机光传操纵系统。 - A certain institute wants to develop a universal semi - physical simulator for certain avionic system . based on this background , this paper discusses the analysis , modeling , design and implementation of the universal semi - physical simulator detailedly
为此,某飞机设计研究所针对某型号飞机航电系统的研制提出了航电系统通用半实物仿真设备的研制要求。 - Nowadays , because of the advantage in the real - time simulation and the authenticity of the result , semi - physical simulation has been applied to many fields widely . the simulation for the avionic system and devices is an important branch of the semi - physical simulation
目前,由于在仿真的实时性以及真实性等方面具有的强大优势,半实物仿真技术在众多领域都得到了广泛的应用,航空电子系统(简称航电系统)及其子系统的半实物仿真应用就是其中的一个重要分支。 - This paper studies the design documents of the avionic system detailedly , including the interface control document and detailed design requirements , and summarizes the data structures and the communication formats of the system , and designs the simulation database . this paper also studies some protocols such as gjb289a , arinc429 and udp etc , and then determines the methods of data processing . according to the theory of the software engneering , this paper completes the requirements analysis , the globle
本文根据设备的具体设计要求,完成了仿真设备的硬件设计;详细研究了航电系统的系统设计文件? ?接口控制文件和详细设计要求,总结出了航电系统的数据结构和消息通讯格式,并在此基础上设计了用来表达仿真对象的关系型仿真数据库;研究了gjb289a 、 arinc429等总线协议以及udp网络协议,明确了各类数据的处理方法;按照软件工程的开发理论,完成了仿真软件的需求分析、概要设计和详细设计,进而通过编程在labwindows / cvi环境下实现了一个界面友好、灵活通用的仿真平台。 - Most of the current semi - physical simulators of the avionic system consist of special software and hardware , which results in the necessity to develop simulators independently for different avionic devices . simultaneously , according to the requirement of the software engineering , software must need to be strictly tested after developed or modified . this will consume much energy and time , and makes the software hard to be maintained
当前的航电系统半实物仿真器多是使用专用的硬件设备搭配专用的仿真软件来实现的,这种专用性就造成了需要针对不同航电设备单独开发仿真器的问题,同时按照软件工程的要求,软件的开发以及修改都要经过严格的测试,这就使得仿真系统的开发耗费大量的精力和时间,同时使得仿真软件难以维护。