共查询到16条相似文献,搜索用时 196 毫秒
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IVI 驱动技术是当今受人推崇的软件控制新技术。文中阐述了 IVI 技术的应用,真正实现了仪器的可互换性.使得工程人员的测试程序可以应用于不同的仪器设备。文中介绍了 IVI驱动机制、使用工具、建立虚拟仪器等方面的相关问题。 相似文献
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用IVI驱动程序建立硬件无关测试系统 总被引:4,自引:3,他引:1
可交换虚拟仪器(IVI)驱动程序是一种崭新的技术,使得测试程序可以在不同仪器之间使用,从而建立真正的独立于硬件的测试系统.文中介绍了可互换虚拟仪器(IVI)系统结构和运行机制,并给出了IVI的测试程序实例. 相似文献
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文章分析了与开发通用ATS密切相关的标准/规范,从软、硬件两方面讨论了ATS通用性的实现途径,包括硬件配置及接口技术、IVI技术以及面向信号方法。ATS通用性的实现可以实现被测对象的跨平台测试以及测试程序的可移植,能带来显著的军事及经济效益。 相似文献
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介绍了可互换的虚拟仪器技术的技术背景、体系结构、类驱动器、测量和激励子系统等,讨论了在ATE中基于信号的测试方法,建立了一个基于IVI技术和信号测试的ATE,将信号测试和可互换的虚拟仪器技术结合起来,实现测试程序和测试仪器之间的松耦合,在更高的层次实现测试仪器的可互换和测试程序的可移植。 相似文献
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此前,日本地震了、海啸了、核泄露了、核辐射了。曾经,我们震惊了、恐慌了、抢盐了,然后"恐日"了——怕日本进口食品,更怕去日本旅游。现在,安全了、春天了、樱花了,我们也坐不住了。其实,我们不仅可以去"樱花"。在日本,还可以去"温泉"、去"古建筑"、去"美味",甚 相似文献
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阐述了机械设计基础课程虚拟实验的主要功能和特点.提出了建立基于网络的虚拟实验体系内容.采用Solidworks、3Dmax、Flash开发的机构运动简图演示、机构运动测绘和减速器拆装等虚拟实验,大大提高了实验效率,解决了设备、教具不足的矛盾.打破了教师传统的示范演示,实现了教生互动,激发了学生学习的主动性,促进了教学效率和质量的提高. 相似文献
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新一代战斗机全机地面强度试验技术 总被引:1,自引:0,他引:1
介绍了全机地面强度试验及验证要求,分析了试验的新问题和新挑战。通过试验顶层规划,采用全新设计模式、先进的加载技术,从试验的边界条件、综合平台、动力系统、测量与控制、损伤检测与监测等方面制定了总体技术方案。研究并应用了全硬式单侧双向加载技术、试验综合平台设计技术、试验边界条件模拟技术、动力系统设计技术等多项新技术,提高了设计效率、加快了试验实施速度、提升了试验安全性和可靠性。这些新技术在新一代战斗机多架次全机静力/疲劳试验中成功应用,结果表明各试验系统安全、可靠,达到了试验要求和预期试验目标,实现了全机地面强度试验技术的跨越式进步,技术成果为后续型号试验提供了较高参考价值。 相似文献
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煤炭资源管理系统的总体设计 总被引:1,自引:0,他引:1
煤炭资源管理系统采用面向对象的可视化的数据库开发工具PowerBu ilder,分为采掘工程子系统、机电工程子系统、运输工程子系统、通风工程子系统、排水工程子系统、安全工程子系统六个功能模块,整个系统操作简便、容错性强、安全性高、扩展性好,并实现了M IS和G IS完美集成,实现了煤炭资源管理信息现代化,为煤炭企业的经营管理决策提供了准确、及时、可靠的信息,提高了企业的竞争力和经济效益。本文从煤炭资源管理系统的建设目标、设计原则和功能几个方面,介绍了煤炭资源管理系统的总体设计方案。 相似文献
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This paper presents an overview of work being done by Teradyne in conjunction with the IVI Foundation to specify an IVI class for digital instrumentation. The Interchangeable Virtual Instruments (IVI) Foundation was formed in August 1997 to define standard specifications for programming common test instrument capabilities. The paper will present the major architectural aspects of digital test instrumentation and how those features can be grouped into classes for the purpose of writing an instrument independent driver. Topics discussed will include derivation of capability classes, class extensions, simulation, and range checking. Examples of how the IVI digital class would apply to the Teradyne M9-Series Digital Test Instrument will be included. Conclusions will summarize the unique attributes of digital test instrumentation, the benefits which can be achieved through standardization, and the tradeoffs associated with utilizing class extensions 相似文献
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Instrument driver technology has evolved tremendously over the last decade. Initiatives such as SCPI and VXIplug&play have simplified remote instrument programming with standardized command messages and high-level utility functions. The latest initiative is the Interchangeable Virtual Instrument (IVI) Foundation. IVI defines standards for instrument drivers that offer benefits to provide higher performance. These benefits include instrument interchangeability, instrument simulation, and instrument state-caching. Because instrument drivers are an integral part of a modern test system, IVI promises to provide developers with the tools to increase their system performance significantly. This paper reviews the technical aspects of the IVI specification and the TVI architecture and describes how IVI can help the test system developer improve performance and lower long-term software maintenance costs 相似文献
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IVI stands for Interchangeable Virtual Instruments; the IVI Foundation was formed in 1997 and is a consortium founded to promote standard specifications for programmable test instruments. The foundation focuses on the needs of users who build high performance test systems. By building on existing industry standards, such as VXIplug&play driver concepts, the Foundation's goal is to deliver specifications that simplify interchangeability, provide better performance, and maintainable test programs. To date, only a few IVI drivers have been available. In the past year, the IVI Foundation finished a major revision of it's architecture and has released a blizzard of specifications, increasing its IVI Class specification by 80% and dramatically improving the consistency and quality of released drivers. The DoD has expressed major interest in IVI's success. With the recent successful completion of the current set of specifications, DoD is interested in becoming involved in defining the next set of Class Specifications. The NxTest Working Group lists IVI as a key technical element, and DoD has recently requested that the IVI Foundation consider Electro Optical equipment for their next set of Class Specifications; a Working Group has been formed to more clearly define this activity. 相似文献
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Test system developers can benefit greatly from a software architecture that allows for easy interchangeability of instruments in those systems. Using open industry standard software architectures such as Virtual Instrument Software Architecture (VISA), and Interchangeable Virtual Instruments (IVI), developers are able to create systems with interchangeable test instrumentation. This paper describes the VISA and IVI software standards and demonstrates how their use within a broader software architecture, which includes standard development environments and flexible test executive software, facilitates the creation of interchangeable test systems 相似文献
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New software technologies, such as VISA and IVI, continue to bring the industry toward greater standardization. The benefit to the integrator is reduced costs through reuse of the same hardware and software. The benefit to the customer end-user is lower costs by reducing modification and support through the life-cycle to the test station. However, while we position ourselves for the future with PXI and these software technologies, we must still provide support for VXI, GPIB, and instrument drivers that use current software technologies. Using a number of additional tools such as National Instrument's Measurement and Automation Explorer and Geotest's ATEasy, we can have the power of these tools today while waiting for wider acceptance and support of the newer VISA and IVI technologies. We are just now seeing the development of IVI drivers and the ink is still wet on the VISA specification for PXI. ATEasy provided the structure necessary to use these technologies with the current technology. This paper explores the process of implementing and integrating the system driver and instrument drivers for a PXI-based test station for the TOW2 optical sight sensor. 相似文献
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目的为了在自动组卷系统中合理地保存试题和试卷;方法利用数据库函数简化字段生成操作,在组卷后较好的保存试卷信息;结果提出一种试题数据库设计方案,能够合理保存试题;结论在实际使用中取得较好的效果。 相似文献