浅谈转包生产麦道机头档案资料管理

本文介绍了在麦道档案管理中所实行的程序管理，突出重点控制的一套全新的管理办法。     

《膨胀土地基上修筑机场道面对策研究》项目通过鉴定

经空后司令部批准，4月29日空后机场营房部主持召开了《膨胀土地基上修筑机场道面对策研究》项目鉴定会。该项目研究成果顺利通过技术鉴定，并得到了与会专家和领导的一致好评。《膨胀土地基上修筑机场道面对策研究》项目，系统地提出了在膨胀土上修筑机场道面的设计、试验、施工控制指标和科学的判别方法，并提供了确定经济合理的地基处理方法的有效手段，对于膨胀土地区机场工程建设顺利进行，控制投资规模，具有十分重要的意义。     

基于蚂蚁算法的星上ATM交换结构

对于卫星ATM交换系统，星上ATM交换结构的设计是一个非常重要的部分。由于卫星通信具有带宽有限、时延受限、信道误码率高等特点，因而设计星上交换结构时必须尽可能降低交换时延，减少内部阻塞。为此，提出一种基于蚂蚁算法的星上ATM交换结构，并对此方案进行了分析和仿真。结果表明，该结构由于采用了蚂蚁算法和阻塞规避方案，有效改善了信元时延和信元丢失率等性能。     

Research priorities and plans for the International Space Station-results of the 'REMAP' Task Force

Recent events in the International Space Station (ISS) Program have resulted in the necessity to re-examine the research priorities and research plans for future years. Due to both technical and fiscal resource constraints expected on the International Space Station, it is imperative that research priorities be carefully reviewed and clearly articulated. In consultation with OSTP and the Office of Management and budget (OMB), NASA's Office of Biological and Physical Research (OBPR) assembled an ad-hoc external advisory committee, the Biological and Physical Research Maximization and Prioritization (REMAP) Task Force. This paper describes the outcome of the Task Force and how it is being used to define a roadmap for near and long-term Biological and Physical Research objectives that supports NASA's Vision and Mission. Additionally, the paper discusses further prioritizations that were necessitated by budget and ISS resource constraints in order to maximize utilization of the International Space Station. Finally, a process has been developed to integrate the requirements for this prioritized research with other agency requirements to develop an integrated ISS assembly and utilization plan that maximizes scientific output.     

遥测传感器四十年的发展

简述传感器技术对发展航天的意义，回顾40年遥测传感器在研制和应用等方面所取得的主要成就。     

航天飞机的固体火箭发动机

本文介绍了航天飞机用的助推固体火箭发动机(SRM)。其类型分为三种:当前执行任务的标准SRM,空间飞行运输8号用的高性能SRM;以及计划在1985年飞行用的纤维缠绕壳体SRM。航天飞机的SRM是获得飞行状态中最大的固体推进剂发动机,其直径为146英寸,长度为125英尺,装有1111000磅固体推进剂,最大推力(真空条件下)为3115000磅力。在首次飞行前成功地进行了7次地面试车,随后的三次飞行试验满足了发动机的全部技术指标。计划提高航天飞机的性能,从东海岸发射的有效载荷达到65000磅,在西海岸发射时(极轨道)达到32000磅。航天飞机性能提高是由于:1.采用高性能的SRM使航天飞机的有效载荷增加3000磅。2.SRM使用纤维缠绕壳体结构使航天飞机的有效载荷增加6000磅。前者靠改变SRM的推力——时间曲线和提高喷管的膨胀比来实现;后者靠减少壳体的消极重量来实现。     

MX导弹第二级发动机

引言MX导弹第二级发动机用来提供飞行第二阶段的动力,以及飞行第一阶段和第二阶段的滚转控制力矩。MX导弹第二级发动机的直径为92英寸(2337毫米),长220.4英寸(5598毫米),毛重60234磅(27322公斤),其基本结构如图1所示。经过16个月的系统论证(SD)和头4个月的全尺寸工程研制(FSED),第二级发动机业已进行了优化,以便满足系统要     

The European Astronaut Centre prepares for International Space Station operations

The European Space Agency (ESA) contribution to the International Space Station (ISS) goes much beyond the delivery of hardware like the Columbus Laboratory, its payloads and the Automated Transfer Vehicles. ESA Astronauts will be members of the ISS crew. ESA, according to its commitments as ISS international partner, will be responsible to provide training on its elements and payloads to all ISS crewmembers and medical support for ESA astronauts. The European Astronaut Centre (EAC) in Cologne has developed over more than a decade into the centre of expertise for manned space activities within ESA by contributing to a number of important co-operative spaceflight missions. This role will be significantly extended for ISS manned operations. Apart from its support to ESA astronauts and their onboard operations, EAC will have a key role in training all ISS astronauts on ESA elements and payloads. The medical support of ISS crew, in particular of ESA astronauts has already started. This paper provides an overview on status and further plans in building up this homebase function for ESA astronauts and on the preparation towards Training Readiness for ISS crew training at EAC, Cologne. Copyright 2001 by the European Space Agency. Published by the American Institute of Aeronautics and Astronautics, Inc., with permission. Released to IAF/IAA/AIAA to publish in all forms.