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Achieving greater automation in fibre channel test equipment for parametric and ASM protocol analysis and testing military avionics

机译：在用于参数和ASM协议分析和测试的光纤通道测试设备中实现更高的自动化军用航空电子设备

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Achieving true harmonization of fibre channel testing in the avionics environment has presented new challenges in developing a single automated test station to support the diversity of avionics applications. The need for a fibre channel (FC) intermediate level maintenance concept was identified and defined in the paper "intermediate level maintenance fibre channel testing" written by Charles R. Barker, Jr., Lockheed Martin, 2002. This paper is an extension of that concept identifying the requirements necessary for the next generation of automated FC test equipment to support analysis/testing during product manufacturing and development. It is imperative that a common solution be developed for protocol analysis such as asynchronous subscriber message (ASM) as well as the needs of fiber optic testing. A significant increase in the sophistication of the test equipment is driven by the need for greater automation, advanced analysis capabilities, and commonality between production test, depot test/maintenance, and design verification testing. The requirements and design concepts in this paper demonstrate how harmonization may be realized for the established FC test methodologies bringing the benefits of increased automation to all levels of test using commercial equipment and standards.

机译：在航空电子环境中实现光纤通道测试的真正协调，在开发单个自动化测试站以支持航空电子应用的多样性方面提出了新的挑战。 Charles R. Barker，Jr.，洛克希德·马丁（Lockheed Martin），2002年撰写的论文《中级维护光纤通道测试》中确定并定义了对光纤通道（FC）中级维护概念的需求。该概念确定了下一代自动FC测试设备在产品制造和开发过程中支持分析/测试所必需的要求。必须开发一种用于协议分析的通用解决方案，例如异步用户消息（ASM）以及光纤测试的需求。对测试设备的复杂性的显着提高是由于需要更高的自动化，更先进的分析功能以及生产测试，仓库测试/维护和设计验证测试之间的通用性。本文中的要求和设计概念说明了如何通过已建立的FC测试方法实现协调一致，从而为使用商用设备和标准进行的所有测试水平提高自动化程度带来了好处。

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《》|2003年|p.636-642|共7页
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McKinzie; F.C.;
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中图分类无线电电子学、电信技术;
关键词
military avionics; automatic test equipment; optical fibre testing; automated test equipment; ATE systems; military avionics testing; fibre channel test equipment; parametric analysis; ASM protocol analysis; harmonization; asynchronous subscriber message;

机译：军用航空电子;自动测试设备;光纤测试;自动化测试设备; ATE系统;军用航空电子测试;光纤通道测试设备;参数分析; ASM协议分析;协调;异步用户消息;

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1. TESTING THE WATERS: AVIONICS TEST EQUIPMENT SEES NEW MARKETS [J] . Juliet Van Wagenen Avionics Magazine . 2015,第5期

机译：测试水域：航空测试设备成为新市场
2. Open systems architecture solutions for military avionics testing [J] . Pizzica S. IEEE Aerospace and Electronic Systems Magazine . 2001,第8期

机译：用于军事航空电子测试的开放系统架构解决方案
3. A Study On The Use Of Statistical Tests For Experimentation With Neural Networks: Analysis Of Parametric Test Conditions And Non-parametric Tests [J] . Julian Luengo, Salvador Garcia, Francisco Herrera Expert systems with applications . 2009,第4期

机译：统计测试用于神经网络实验的研究：参数测试条件和非参数测试的分析
4. Achieving Greater Automation in Fibre Channel Test Equipment for Parametric and ASM Protocol Analysis and Testing [C] . Fitz C. McKinzie IEEE Systems Readiness Technology Conference . 2003

机译：用于参数和ASM协议分析和测试的光纤通道测试设备中的更大自动化
5. Development and flight testing of a wireless avionics network based on the IEEE 802.11 protocols. [D] . Chilakala, Satish Kumar. 2008

机译：基于IEEE 802.11协议的无线航空电子网络的开发和飞行测试。
6. Cardiopulmonary exercise testing in congenital heart disease: equipment and test protocols [O] . T. Takken, A.C. Blank, E.H. Hulzebos, 2009

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7. FIBRE CHANNEL TESTING FOR AVIONICS APPLICATIONS [O] . Warden Gary, Fleissner Bill 2004

机译：航空应用的光纤通道测试

Achieving greater automation in fibre channel test equipment for parametric and ASM protocol analysis and testing military avionics

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