室内火箭试车台的理论和试验评定

用于固体火箭发动机静态试车的一种新的室内试验设施最近在荷兰全国应用科学研究中心的Prins Maurits实验室建成。本文介绍了试车的概况,气体动力学特性,强度和减声特性,以及验证试验的结果。     

含硝酸酯增塑剂的固体推进剂的脆化研究

本文介绍硝酸酯增塑的聚醚聚氨酯推进剂在低温贮存中,解决失去应变能力(脆化)问题的研究结果。这种高度增塑的推进剂在低温下短期贮存,几乎完全失去了应变能力。研究这种脆化的原因表明,交联密度以及粘合剂配方是起作用的因素。湿度曾被考虑是因素之一,但实验证明并非如此。实验表明增塑剂结晶是脆变的主要原因但不一定与增塑剂的凝固点有关。重新测定某些增塑剂的凝固点是研究工作的一部份。放入增塑剂晶体增加了推进剂脆变速度。单独采用丁三醇三硝酸酯(BTTN)或是混合增塑剂可以解决这个问题。采用混合增塑剂可以得到最好的低温性能。     

中巴地球资源卫星在巴西的应用

重点介绍了当前巴西以用户为导向的中巴地球资源卫星(CBERS-1)数据在森林采伐监测、土地利用规划、影像制图和科学应用等方面的应用项目，对今后利用中巴地球资源卫星开展国家项目发表了一些看法。     

A Canadian high-energy neutron spectrometry system for measurements in space

Bubble Technology Industries Inc. (BTI), with the support of the Canadian Space Agency, has finished the construction of the Canadian High-Energy Neutron Spectrometry System (CHENSS). This spectrometer is intended to measure the high energy neutron spectrum (approximately 1-100 MeV) encountered in spacecraft in low earth orbit. CHENSS is designed to fly aboard a US space shuttle and its scientific results should facilitate the prediction of neutron dose to astronauts in space from readings of different types of radiation dosimeters that are being used in various missions.     

ELITE-S2: the multifactorial movement analysis facility for the International Space Station

Experimental observations of adaptation processes of the motor control system to altered gravity conditions can provide useful elements to the investigations on the mechanisms underlying motor control of human subject. The microgravity environment obtained on orbital flights represents a unique experimental condition for the monitoring of motor adaptation. The research in motor control exploits the changes caused by microgravity on the overall sensorimotor process, due to the impairment of the sensory systems whose function depends upon the presence of the gravity vector. Motor control in microgravity has been investigated during parabolic flights and short-term space missions, in particular for analysis of movement-posture co-ordination when equilibrium is no longer a constraint. Analysis of long-term adaptation would also be very interesting, calling for long-term body motion observations during the process of complete motor adaptation to the weightlessness environment. ELITE-S2 is an innovative facility for quantitative human movement analysis in weightless conditions onboard the International Space Station (ISS). ELITE-S2 is being developed by the Italian Space Agency, ASI is to be delivering the flight models to NASA to be included in an expressed rack in US Lab Module in February 2004. First mission is currently planned for summer 2004 (increment 10 ULF 2 ISS).     

相控阵雷达应用的进展

在过去十年，可以看到军用和民用相控阵雷达系统的快速发展。新的大项计划（欧洲也有）是这一领域的技术驱动因素。本文目的在于简述用相控阵雷达所能完成的挑战性雷达任务，地面、舰载、机载和星载系统的主要应用，关键的技术和未来的应用问题。     

利用机载高距离分辨率相控阵雷达进行动目标检测

本文研究机载高距离分辨率（HRR）相控阵雷达在时空相关地杂波背景中的动目标检测问题，为避免HRR雷达数据中出现的距离徙动问题，文中将HRR距离剖面划分成几大距离段，由于线段距离包含一系列高距离分辨率距离单元，所以这种划分不会丢失信息，因而不会折损失分辨率，本文阐述了如何采用矢量自回归（VAR）滤波技术来抑制地杂波，而后推导了基于广义似然比测试（GLRT）检测策略的动目标检测器，检测门限根据所需的虚警率，通过渐进统计分析来确定，若假设存在目标，先根据VAR滤波数据估计出目标多普勒频率和空域特征矢量后，再计算一简单的检测变量，并将它与检测门限相比较，即可做出是否存在目标的判 次，数值结果验证了所提出的动目标检测算法的性能。     

Canada and the International Space Station program: overview and status

The twelve months since IAF 2000 have been perhaps the most exciting, challenging and rewarding months for Canada since the beginning of our participation in the International Space Station program in 1984. The highlight was the successful launch, on-orbit check out, and the first operational use of Canadarm2, the Space Station Remote Manipulator System, between April and July 2001. The anomalies encountered and the solutions found to achieve this success are described in the paper. The paper describes, also, the substantial progress that has been made, during the twelve months since IAF 2000, by Canada as it continues to complete work on all flight-elements of its contribution to the International Space Station and as we transition into real-time Space Station operations support and Canadian utilization. Canada's contribution to the International Space Station is the Mobile Servicing System (MSS), the external robotic system that is key to the successful assembly of the Space Station, the maintenance of its external systems, astronaut EVA support, and the servicing of external science payloads. The MSS ground segment that supports MSS operations, training, sustaining engineering, and logistics activities is reaching maturity. The MSS Engineering Support Center and the MSS Sustaining Engineering Facility are providing real-time support for on-orbit operations, and a Canadian Payloads Telescience Operations Center is now in place. Mission Controllers, astronauts and cosmonauts from all Space Station Partners continue to receive training at the Canadian Space Agency. The Remote Multi Purpose Room, one element of the MSS Operations Complex, will be ready to assume backroom support in 2002. Canada has completed work on identifying its Space Station utilization activities for the period 2000 through 2004. Also during the past twelve months the CSA drafted and is proceeding with the approval of a Canadian Space Station Commercialization Policy. Canadian astronauts have now participated in three ISS assembly missions--Julie Payette on STS-96, Marc Garneau on STS-97, and Chris Hadfield on STS-100 in April 2001 during which he performed Canada's first EVA and the successful installation of the Space Station Remote Manipulator System.     

Dosimetric measurements in manned missions

Detector packages consisting of thermoluminescence detectors (TLDs), nuclear emulsions and plastic nuclear track detectors were exposed in different sections of the MIR space station, inside the Spacelab during the IML1 mission, and inside Spacelab module and tunnel during the D2 mission. This report concentrates on total dose measurements with TLDs during these mission. The results are discussed and compared to results of former missions and to calculations. Finally, dose equivalents and mean quality factors for each mission are presented which are derived from the TLD results and results obtained from the other detector systems. Dose equivalents range between 200 μSvd⁻¹ and 700 μSvd⁻¹.     

Active Aerothermoelastic Control of Hypersonic Double-wedge Lifting Surface

Designing re-entry space vehicles and high-speed aircraft requires special attention to the nonlinear thermoelastic and aerodynamic instability of their structural components. The thermal effects are important since temperature environment brings dramatic influences on the static and dynamic behaviors of flight structures in supersonic/hypersonic regimes and is likely to cause instability, catastrophic failure and oscillations resulting in structural failure due to fatigue. In order to understand the dynamic behaviors of these ＂hot＂ structures, a double-wedge lifting surface with combining freeplay and cubic structural nonlinearities in both plunging and pitching degrees-of-freedom operating in supersonic/hypersonic flight speed regimes has been analyzed. A third order piston theory aerodynamic is used to estimate the applied nonlinear unsteady aerodynamic loads. Also considered is the loss of torsional stiffness that may be incurred by lifting surfaces subject to axial stresses induced by aerodynamic heating. The aerodynamic heating effects are estimated based on the adiabatic wall temperature due to high speed airstreams. As a recently emerging technology, the active aerothermoelastic control is aimed at providing solutions to a large number of problems involving the aeronautical/aerospace flight vehicle structures. To prevent such damaging phenomena from occurring, an application of linear and nonlinear active control methods on both flutter boundary and post-flutter behavior has been fulfilled. In this paper, modeling issues as well as numerical simulation have been presented and pertinent conclusions outlined. It is evidenced that a serious loss of torsional stiffness may induce the dynamic instability; however active control can be used to expand the flutter boundary and convert unstable limit cycle oscillations （LCO） into the stable LCO and/or to shift the transition between these two states toward higher flight Mach numbers.