基于图像自匹配性的景象匹配区的选定淮则

定义了图像的自匹配性，并用自匹配系数作为光景象匹配区的选定准则，和以前提出的相关长度、独立像元素准则进行了分析对比，说明了这两个准则的实质，通过分析和实验得出了相对相于关匹配算法而言，自匹配系统准则效更佳的结论，对于光学景象匹配区的选择具有一定的实用价值。     

预浸料的类型、特性与制造技术

纤维增强复合材料工艺性和性能主要取决于预浸料的质量已被人们所重视。文中对预浸料的类型、特性、制造技术和质量控制等内容作了简要介绍。     

基于有限状态机的Type A卡防冲突技术

在分析了Type A非接触智能卡防冲突的基本工作原理的基础上,采用有限状态机模型对卡上位冲突检测协议的实现算法进行了数学表述和状态转换的设计,并采用统一建模语言UML中的状态图描述了卡上的防冲突过程.最后,在智能卡芯片上实现了防冲突协议,实际应用证明系统运行正确.     

选取矩量法基函数的一种新设想

通过分析对比普通矩量法中所选用的全域基函数和子域基函数的特点,提出了构造多尺度子域基函数的设想和具体实现方法,通过几个例子的计算,证实了采用这种新的基函数能得到稳定的矩量法解。     

民用小飞机取美国FAA型号合格证研究

洪都航空工业集团公司设计生产的N5A飞机先后取得中国民用航空局（CAAC）颁发的型号合格证和生产许可证。为了开拓国际市场,根据中美双边适航协议,按14CFR23适航标准与美国联邦航空局（FAA）小飞机管理中心达成的型号合格评估项目（CRI）要求,洪都集团主要从设计工程技术资料、持续适航文件、现场试飞评估等几个主要方面,接受FAA的审查,完成了FAA对该型飞机的颁证工作。本文结合该型飞机完整的型号取证过程,为我国航空工业企业按CCAR23部生产的小飞机申请美国FAA型号合格证,将产品推向国际市场探索出了一条可行之路。     

基于航天器控制语言的东三平台卫星遥控作业设计与实现

针对东三平台卫星的飞行任务要求,分析了地面测控系统和卫星飞行程序,提出了遥控作业的数据接口及设计原则,并通过作业例程验证了该设计方法。利用该方法设计的系列遥控作业目前已应用在东三平台卫星的测控工程中。     

基于机场Type I ILS设备进行CAT II ILS试飞的可行性研究

进行CAT II ILS试飞的前提是机场具备Type II ILS设备,国内符合条件的机场皆为大型枢纽机场, 诸多运行限制将极大影响试飞效率。为了增加机场选择裕度,加快试飞进程,在国内首次提出采用具有Type I ILS进行CAT IIILS试飞的新方法,并从适航条款、技术要求等方面详细分析其可行性。结果表明:此方法 满足适航审定要求,切实可行,是一种有效的能实际运用于国内大多数栺类运行条件机场的试飞方法。     

运载火箭发动机喷管变形机构型综合分析研究

为有效缩短箭体长度,增大喷管扩张比,提高发动机比冲,对运载火箭发动机进行了喷管变形机构型综合分析。首先分析了国内外喷管变形机构发展历程,在此基础上系统总结了喷管变形机构的典型应用,并对典型喷管变形机构进行了方案分析,研究了其组成原理和功能设计特点,最后基于机构拓扑图分析方法给出机构构型方案及设计方法。介绍了国内外相关喷管变形机构各构型方案运动原理及设计特点,并综合分析评价了各方案,提出了喷管变形机构技术发展建议,可为运载火箭发动机变形机构设计提供支撑。     

A statistical study of solar radio Type III bursts and space weather implication

Solar radio bursts (SRBs) are the signatures of various phenomenon that happen in the solar corona and interplanetary medium (IPM). In this article, we have studied occurrence of Type III bursts and their association with the Sunspot number. This study confirms that occurrence of Type III bursts correlate well with Sunspot number. Further, using the data obtained using e-CALLISTO network, we have investigated drift rates of isolated Type III bursts and duration of the group of Type III bursts. Since Type II, Type III and Type IV bursts are signatures of solar flares and/or CMEs, we can use the radio observations to predict space weather hazards. In this article, we have discussed two events that have caused near Earth radio blackouts. Since e-CALLISTO comprises more than 152 stations at different longitudes, we can use it to monitor the radio emissions from the solar corona 24 h a day. Such observations play a crucial role in monitoring and predicting space weather hazards within few minutes to hours of time.     

Generic procedure for designing and implementing plan management systems for space science missions operations

This paper is one of the components of a larger framework of activities whose purpose is to improve the performance and productivity of space mission systems, i.e. to increase both what can be achieved and the cost effectiveness of this achievement. Some of these activities introduced the concept of Functional Architecture Module (FAM); FAMs are basic blocks used to build the functional architecture of Plan Management Systems (PMS). They also highlighted the need to involve Science Operations Planning Expertise (SOPE) during the Mission Design Phase (MDP) in order to design and implement efficiently operation planning systems. We define SOPE as the expertise held by people who have both theoretical and practical experience in operations planning, in general, and in space science operations planning in particular. Using ESA’s methodology for studying and selecting science missions we also define the MDP as the combination of the Mission Assessment and Mission Definition Phases. However, there is no generic procedure on how to use FAMs efficiently and systematically, for each new mission, in order to analyse the cost and feasibility of new missions as well as to optimise the functional design of new PMS; the purpose of such a procedure is to build more rapidly and cheaply such PMS as well as to make the latter more reliable and cheaper to run. This is why the purpose of this paper is to provide an embryo of such a generic procedure and to show that the latter needs to be applied by people with SOPE during the MDP. The procedure described here proposes some initial guidelines to identify both the various possible high level functional scenarii, for a given set of possible requirements, and the information that needs to be associated with each scenario. It also introduces the concept of catalogue of generic functional scenarii of PMS for space science missions. The information associated with each catalogued scenarii will have been identified by the above procedure and will be relevant only for some specific mission requirements. In other words, each mission that shares the same type of requirements that lead to a list of specific catalogued scenarii can use this latter list of scenarii (regardless of whether the mission is a plasma, planetary, astronomy, etc. mission). The main advantages of such a catalogue are that it speeds-up the execution of the procedure and makes the latter more reliable. Ultimately, the information associated to each relevant scenario (from the catalogue or freshly generated by the procedure) will then be used by mission designers to make informed decisions, including the modification of the mission requirements, for any missions. In addition, to illustrate the use of such a procedure, the latter is applied to a case study, i.e. the Cross-Scale mission. One of the outcomes of this study is an initial set of generic functional scenarii. Finally, although border line with the above purpose of this paper, we also discuss multi-spacecraft specific issues and issues related to the on-board execution of the plan update system (PUS). In particular, we show that the operation planning cost of N spacecraft is not equal to N times the cost of 1 spacecraft and that on-board non-synchronised operation will not require inter-spacecraft communication. We also believe that on-board PUS should be made possible for all missions as a standard.