Ariane transfer vehicle in service of man in orbit

The Ariane transfer vehicle (ATV), an Ariane 5 borne, unmanned propulsion vehicle, is designed to transport the logistics needed to resupply the International Space Station (ISS) and the man tended free flyer (MTFF) step 2 with pressurized and unpressurized cargo and to dispose the waste. The ATV is an expendable vehicle and is disposed of by a safe atmospheric burn up. In accordance with the AR5 schedule it should be operational in 1996 for missions toward ISS and beyond the year 2000 for MTFF 2 missions. The main constituents of the proposed ATV are the modified AR5 third stage L5, an upgraded VEB steering the launcher as well as the ATV and the P/L-adaptor providing mechanical and umbilical links to the payload. The mechanical part of the RVD-kit will be placed on the payload-module, the main RVD sensors are located on the adaptor and the needed computer intelligence will be integrated on the VEB. To minimize the development, and recurring costs, the ATV concept fully complies to the idea of maximum use of existing hardware and software, mainly from the AR5, Hermes and Columbus programs thus minimizing development and recurring costs. The ATV is compatible to ISS, MTFF and OMV and is able to transport logistic modules compatible with NSTS and U.S.-expendable launchers.     

异步电动机的最小能量运行点

在异步电动机的一般数学模型基础之上，提出了本文使用的数学模型。和一般数学模型相比，此模型对异步电动机转子电阻的变化较不敏感。借助异步电动机的期望电磁转矩，推导出了参数化的状态运行点(定子电流和磁链在稳定状态下的值)一最小能量运行点，得到异步电动机的最小能量运行条件。     

一种新型级间分离技术研究

本文对一种含固体燃气发生器的级间分离技术进行了研究。首先给出了分离的总体方案，建立了级间段气体压强瞬变的数学模型和导弹两级的运动模型，并利用流体动力学软件对级间段充气过程进行了模拟。简要介绍了固体燃气发生器的设计，并给出燃气发生器装药的选取原则。最后通过对某型号导弹的计算，证明这种级间分离方案是可行的。     

有源磁悬浮动态特性的测试与辨识

惯性仪表有源磁悬浮的动态特性实质上反映着其浮子组件五个自由度的动力学规律。针对时分式有源磁悬浮动态特性测试在工程实现上的具体困难， 基于多输入多输出（ Ｍ Ｉ Ｍ Ｏ） 系统的测试和辨识原理， 采用时分信号激励和近似的时序同步数据采集方法， 进行了磁悬浮各回路的时域测试和辨识， 结果表明， 开环状态下的浮子运动有一定交叉耦合关系， 在有源磁悬浮设计和调试中应当加以考虑。同时分析了辨识的可行性和可信度。     

开放式飞行任务规划方法

本文给出了一种基于分布式黑板结构的开放式飞行任务规划方法，简要叙述了飞行器飞行任务规划的概念和其独特要求，并对飞行任务规划的数据预处理、知识表达、规划方法作了深入的探讨。最后介绍了分布式黑板的结构和运行方式。     

局部模型跟踪控制理论的应用研究

将文献［１］中的局部模型跟踪变结构理论用于导弹控制系统设计，探索了一条设计控制系统的新路。某型号导弹控制系统设计中采用了本文提出的参数选择法，获得了良好的仿真结果。     

固体火箭发动机点火过程内流场的二维预示

本文对固体火箭发动机点火过程的内场流进行了二维无粘非定常分析，计算得到了该阶段燃烧室中压强，温度和速度的分布。本文还提出了以近似预示复杂三维装药发动机内流场的有效积法。     

固体火箭发动机排气二次燃烧的抑制技术

介绍了无烟固体火箭推进剂研究的最新进展——固体火箭发动机排气二次燃烧的抑制技术,内容包括二次燃烧的产生机理、抑制机理和国外技术现状等.国外经验表明,采用少量的抑制剂可以达到对高能无烟推进剂发动机排气二次火焰的抑制.     

航天飞行器防热部件烧蚀行为的数值模拟

对航天飞行器防热部件在氧－煤油发动机火焰喷吹下的烧蚀行为进行了有限元数值模拟。利用“杀死”单元的方法建立防热部件瞬态温度场的有限元模型，实现了烧蚀边界的退缩，从而完成了对烧蚀尺寸变化的定量描述。烧蚀开始于4．59s，到12s时线烧蚀量为1．47mm。计算结果与试验的实测结果一致。     

LISA — a study of the ESA cornerstone mission for observing gravitational waves

The primary objective of the Laser Interferometer Space Antenna (LISA) mission is to detect and observe gravitational waves from massive black holes and galactic binaries in the frequency range 10⁻⁴ to 10⁻¹ Hz. This low-frequency range is inaccessible to ground-based interferometers because of the unshieldable background of local gravitational noise and because ground-based interferometers are limited in length to a few km. LISA is an ESA cornerstone mission and recently had a system study (Ref. 1) carried out by a consortium led by Astrium, which confirmed the basic configuration for the payload with only minor changes, and provided detailed concepts for the spacecraft and mission design. The study confirmed the need for a drag-free technology demonstration mission to develop the inertial sensors for LISA, before embarking on the build of the flight sensors. With a technology demonstration flight in 2005, it would be possible to carry out LISA as a joint ESA-NASA mission with a launch by 2010 subject to the funding programmatics. The baseline for LISA is three disc-like spacecraft each of which consist of a science module which carries the laser interferometer payload (two in each science module) and a propulsion module containing an ion drive and the hydrazine thrusters of the AOCS. The propulsion module is used for the transfer from earth escape trajectory provided by the Delta II launch to the operational orbit. Once there the propulsion module is jettisoned to reduce disturbances on the payload. Detailed analysis of thermal and gravitational disturbances, a model of the drag-free control and of the interferometer operation confirm that the strain sensitivity of the interferometer will be achieved.