IVI comes of age: An overview of IVI specifications with current status

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.     

Software architecture requirements for DoD automatic test systems

The DoD has achieved success with recent automatic test equipment (ATE) families, as evidenced by the navy's consolidated automated support system (CASS) and the army's integrated family of test equipment (IFTE) programs. However, as these systems age, the increased requirements for technology insertion due to instrument obsolescence and the demands of advanced electronics are becoming evident. Recent advances in test technology promise to yield reduced total ownership costs (TOC) for ATE which can incorporate the new technology. The DoD automatic test system (ATS) executive agent office (EAO) objective is to significantly reduce total ownership cost. Several objectives have been identified including use of synthetic instruments, support for legacy test product sets (TPSs), and more efficient ways of developing TPSs. The NxTest software architecture will meet the objectives by providing an open systems approach to the system software. This will allow for the incorporation of commercial applications in the TPS development and execution environments and support current advances in test technology     

国外机载设备ATS测试软件确认方法浅析

随着测试技术快速发展，机载设备ATS的复杂性和智能化不断提高，软硬件密切耦合，且测试软件的规模、复杂度及其在ATS的功能比重急剧上升，软件确认问题引起了美国军方的高度重视。首先介绍了国外机载设备ATS测试软件确认的背景，详细介绍了国外机载设备ATS测试软件确认的几种典型方法，包括软件的验证、配置管理、缺陷反馈和修改等方法，最后对我国机载设备ATS测试软件确认方法的研究和实施提出了建议。     

Open system concepts for modular avionics

Advanced communications, guidance and navigation systems play key roles in determining superiority of one combat aircraft over another. The use of advanced technology is essential to meeting the mission requirements of present as well as future aircraft. Modular avionics are being used in next generation aircraft, such as the Air Force F-22 fighter and the Army Comanche helicopter, as the means of achieving higher levels of performance, including reduced volume and improved adaptability, maintainability, and expandability. New system acquisitions such as Joint Strike Fighter will attempt to achieve these same performance levels but at dramatically reduced life cycle cost. Retrofit applications will also take on increasing roles in meeting this affordability need as the Department of Defense (DoD) struggles to maintain readiness in the face of the shrinking defense budget. The government is encouraging the use of open standards practices as a means of addressing the affordability issue. The Open Systems Joint Task Force (OS-JTF), formed in September 1994, is chartered to “sponsor and accelerate the adoption of open systems in weapons systems and subsystem electronics to reduce life-cycle costs and facilitate effective weapon system intra- and interoperability”. The purpose of this paper is to relate the concept of open systems to modular avionics. It discusses the key attributes of an open systems approach and identifies key technologies necessary for its success     

Proposal to TPS delivery in 4 months?

Decreasing the often lengthy Test Program Set (TPS) development time is a high priority for both DoD and commercial industry. A protracted test development time for a commercial product can make or break its success. It can impact time-to-market goals for a product, which in turn, can result in a loss of market share. Though the DoD world has different objectives, they, too, are concerned with long test development times which can increase costs and jeopardize a weapon system's mission readiness. The case study for this paper is a test system developed by BAE Systems in less than four months to meet a commercial customer's stringent schedule requirements. The factors that contributed to the success of this project are examined, as is their relevance to the DoD world. The desire is to apply relevant lessons learned from the commercial industry to DoD programs, yielding a decrease in TPS development time     

A Survey of Software Quality Assurance

This summarizes the authors' research into the state-of-the-practice of software quality assurance (SQA) in software organizations throughout the Department of Defense (DoD). Information was obtained through personal visits to a limited number of software facilities and by utilizing a SQA questionnaire that was mailed to 27 DoD software organizations. Twenty questionnaires were returned from Army, Navy, Marine Corps, and Air Force organizations involved in the Life Cycle Software Support (LCSS) process. The survey developed information regarding such topics as: staffing; personnel qualifications; quality standards used; SQA responsibilities; error data collection; adequacy of existing documentation; staff composition; distribution of SQA effort; and workforce mix. In addition, a list of SQA ``Lessons Learned' was developed from comments made by DoD quality managers. The results of this study indicate a wide variance in the application of SQA within the DoD.     

“Test technology and commercialization-past, present andfuture”. Theme of AUTOTESTCON '96

AUTOTESTCON '96, jointly sponsored by AESS and the Instrumentation and Measurement Society (I&MS), was held September 16-19 in Dayton, OH, the birthplace of aviation. As the largest test conference, it provides a valuable forum for the exchange of information relating to automatic test systems (ATS). The conference has continued to grow both in attendance and in exhibition space. This year's conference emphasized improving test system effectiveness in the presence of exploding computer technology and the changing military and commercial environment. The impact of DoD acquisition reform on test was also examined     

基于NxTest的军用自动测试系统研究

现代先进飞机是十分复杂的系统,开展新一代飞机研制的同时,要高度重视自动测试系统的研究.为了适应现代战争多兵种联合作战对多武器系统、多级维护的需要,应将新一代飞机自动测试系统设计成一体化测试、维护与保障系统.以ATS的发展历程为背景,介绍了美国国防部下一代ATS体系结构NxTest和美军第四代战斗机的ATS"洛马之星"(LM-Star),重点讨论了新一代飞机ATS研究涉及的测试标准规范、ATS体系结构、通用ATS平台、综合化仪器等的方面内容,最后对发展我国新一代飞机ATS提出了建议.     

Shared technologies: a new roadmap

The long-term goal of the USAF Shared Technologies Program is to facilitate the development of a roadmap for technology insertion on the wide variety of legacy Automatic Test Equipment (ATE) accumulated by the USAF over the past 30 years. A successful roadmap will provide for Operation & Support (O&S) cost reduction, preserve Test Program Set (TPS) development investments, and evolve in concert with the DoD Executive Agent for Automatic Test Systems (ATS) initiatives and commercial industry, and (e.g., NxTest) changes. The near-term objective of this phase of the USAF Shared Technologies Program is to demonstrate the feasibility of incorporating available commercial technology into the Radio Frequency (RF) Mobile Electronic Test Set (RFMETS). The RFMETS was originally delivered to the USAF during the early 1990s and is used to support a variety of C-130 avionics including the APQ-170 and APQ-180 Radar Systems.     

Test System Impact on System Availability

The specifications are presented for an imperfect automatic test system (ATS) (test frequency distribution, reliability, false alarm rate, nondetection rate) in order to account for the availability, readiness, mean time between unscheduled repairs (MTBUR), reliability, and maintenance of the system subject to monitoring and test. A time-dependent Markov model is presented, and applied in three cases, with examples of numerical results provided for preventive maintenance decisions, design of an automatic test system, buffer testing in computers, and data communications.     

民用飞机电子设备标准发展刍议

讨论了民用飞机的机载电子设备在信息时代和科技发展中所面临的挑战,机载计算机资源(ACR)共享和网络化的引入。文章认为,物理意义上的FFF概念已无法涵盖规范要素,必须引入逻辑意义上的规范要素来满足新的形势。ARINC标准随之作出了某些适应性变化,但尚未找出一条明朗的创新路子。ARINC公司目前正在制订800系列技术报告和设计规范等推荐性文件,而900系列设备标准未能起动。最后以空客A-380和波音B-787飞机的机载电子设备为例,说明民用飞机机载电子设备的发展趋势。     

飞机飞行品质规范发展综述

首先阐述了国内外有人驾驶飞机飞行品质规范的发展历程;然后对无人机飞行品质规范的发展现状进行了分析,介绍了国外无人机飞行品质规范的研究前沿;针对飞行品质规范的强制性问题进行了分析;最后总结了对我国飞行品质规范发展的几点启示。     

Spiral evolution applied to legacy avionics systems

The US Department of Defense (DoD), through the Office of the Secretary of Defense (OSD), has determined that evolutionary acquisition is their strategy of choice for future software-intensive systems, and that the spiral development model (SDM) is the preferred method/process for software-intensive development life cycles. Electronic Systems Command (ESC) at Hanscom AFB, Massachusetts, has written a draft handbook on the use of Spiral Development for all future Command and Control (C2) systems, including reference to the DoD 5000 series and Air Force Program Directive 63-1, Acquisition System, which deploys this OSD mandate for future C2 systems. Barry Boehm's continued work on SDM which he conceived in the 1980s, is heavily biased toward development of new systems that are software-intensive, as noted in a workshop he gave at the Software Engineering Institute (SEI) in 2000.     

The Scientific Measurement System of the Gravity Recovery and Interior Laboratory (GRAIL) Mission

The Gravity Recovery and Interior Laboratory (GRAIL) mission to the Moon utilized an integrated scientific measurement system comprised of flight, ground, mission, and data system elements in order to meet the end-to-end performance required to achieve its scientific objectives. Modeling and simulation efforts were carried out early in the mission that influenced and optimized the design, implementation, and testing of these elements. Because the two prime scientific observables, range between the two spacecraft and range rates between each spacecraft and ground stations, can be affected by the performance of any element of the mission, we treated every element as part of an extended science instrument, a science system. All simulations and modeling took into account the design and configuration of each element to compute the expected performance and error budgets. In the process, scientific requirements were converted to engineering specifications that became the primary drivers for development and testing. Extensive simulations demonstrated that the scientific objectives could in most cases be met with significant margin. Errors are grouped into dynamic or kinematic sources and the largest source of non-gravitational error comes from spacecraft thermal radiation. With all error models included, the baseline solution shows that estimation of the lunar gravity field is robust against both dynamic and kinematic errors and a nominal field of degree 300 or better could be achieved according to the scaled Kaula rule for the Moon. The core signature is more sensitive to modeling errors and can be recovered with a small margin.     

COTS based open systems for military avionics

The DoD has many acquisition programs that are aggressively implementing open architecture principles in new avionics systems. Since “open” is an unclear attribute, projects eventually give in to a point solution that has no flexibility to cost effectively keep up with rapid changes in technology. The Open Systems Development Initiative (OSDI) project utilized COTS products to study the feasibility of building an open system that has plug-and-play capabilities. Lessons learned from the AV-8B Open Systems Core Avionics Requirements (OSCAR) and the F/A-18 Advanced Mission Computers and Displays (AMC&D) programs clearly indicated that understanding the underlying interfaces is crucial to keeping the system as open as possible to take advantage of the rapid changes in technology. A matrix of Key Open Standard Interfaces (KOSI), called the KOSI matrix, was developed and an applicable standard was identified for each interface. A list of non-conforming interfaces was also identified and the use of extensions or wrappers was investigated in an attempt to comply with standards. Standardization, rather than optimization of such interfaces, was considered more beneficial. It became evident that, with the exception of ruggedization, there is no difference in the use of COTS products for either commercial or military systems. Performing a KOSI analysis helped identify the key interfaces and standards, thus enabling the OSDI system to be scalable, portable and interoperable. A good KOSI matrix provides a vehicle for clear communication and helps systems integration and technology insertion to be less painful than what it is today. It helps reduce time-to-market and provides guidance to systems engineers and vendors to keep the system open     

Automated testing

Since the DoD was the leader in incorporating transistors, ICs and embedded processors, they also were on the forefront in developing automatic test equipment. The term automatic test equipment (ATE) encompasses all phases of computer controlled testing. It is based on the integration of instruments, computers and software. These systems generally include five basic elements: control, stimulus, measurement, switching and software. A special interface device or interface test adapter connects the unit under test (UUT) to the ATE. Test program software connects the ATE to the appropriate UUT test points, programs the input stimulus and monitors the output response     

Bridging the gap between ATLAS and C: an open-systems approach toTPS re-host

As the DoD focuses on commercialization and open-architecture standards, the need to migrate existing TPSs from proprietary ATLAS-based platforms to an Open Systems platform becomes more critical. This paper will focus on a solution which leverages COTS software tools and emerging industry standards and technologies to implement object-oriented database tools which enable the conversion of an ATLAS TPS to an ANSI C environment     

DESC field failure evaluation program-`a cradle to grave approach'

The Defense Electronics Supply Center's (DESC's) field failure evaluation program is described. The primary objective of the program is to take positive corrective action steps to assure that quality electronics parts are used in US Department of Defense (DoD) weapon systems. The process flow of field failures from their inception to final corrective action is discussed. To illustrate this, four case studies are presented in which lab testing and coordination with the supplier has resulted in positive corrective action, improving the quality and reliability of the electronic components in DoD weapon systems     

Sole means navigation in US Navy aircraft

The current edition of the US Federal Radionavigation Plan, issued in 1984, presents a consolidated federal plane on the management of those radionavigation systems which are used by both the civilian and military sectors. It states the US Dept. of Defense (DoD) goal to phase out the use of TACAN, VOR/DME, OMEGA, LORAN C, and TRANSIT in military platforms and for Global Positioning System (GPS) to become the standard radionavigation system for DoD. This would eliminate all the current sole-means air navigation systems (TACAN and VOR/DME) aboard military aircraft. Instrument Flight Rule (IFR) operations within controlled airspace requires an operating sole-means air navigation system to be aboard the aircraft. The authors investigate the requirements for GPS certification as a sole means air navigation system in the US National Airspace System (NAS); discuss the implication for GPS user equipment (UE) hardware and software; describe the actual UE implementation; and discuss approaches for UE integration with flight instruments on US Navy aircraft     

自动测试系统的发展现状及前景

LXI(LAN extension for Instrument)是一种适用于自动测试系统的新一代基于LAN的模块化平台标准。自动测试系统的发展经历了3个阶段:专业型、积木型、集成型;LX I仪器总线标准为我国自动测试领域的发展带来了机遇和挑战,为自动测试系统的发展指明了新的方向。