空间太阳能电站微波能量传输验证方案设计

微波能量传输技术作为空间太阳能电站（SpaceSolarPowerStation,SSPS）的关键技术之一,目前的研究和验证工作均集中在各单项技术的突破和验证,缺乏针对SSPS系统特点的全面优化设计。文章根据SSPS的工作模式给出了全面验证空间太阳能电站微波能量传输的验证系统方案设计,对收发天线进行了一体化设计,利用了幅度近似高斯分布的发射阵列场分布设计和低反射的接收整流阵列设计,以高精度来波方向测量和高精度移相控制为波束指向控制的技术途径。对验证系统的波束收集效率进行了分析,收集效率可达94.2%,比传统均匀分布系统高出17.6%。验证系统可从系统规模缩比、波束扫描范围、发射天线口径场分布、整流天线处功率密度、反向波束控制方法等方面模拟SSPS微波能量传输工作模式,推动SSPS系统技术的发展。     

小推力轨道保持方法

对小推力轨道保持方法进行了研究。用快、慢变量控制器分别控制轨道要素的快慢变量,基于推导的经典轨道要素与2个推力方向角和最佳变轨位置的关系,给出了最优推力方向角的解析表达式。用Lyapunov反馈控制实现卫星轨道机动的轨道转移,并引入相位调整,实现了卫星的站位保持。仿真结果表明:基于Lyapunov的反馈控制可实现小推力轨道的转移和保持。     

国际空间站智能在轨运行进展及启示

空间站作为近地空间的大型平台,具备长期飞行与空间科学探索能力.随着在轨任务的不断增加,高效空间站在轨运行管理成为挑战性的难题.人工智能与航天技术的深度融合,使得空间站在轨运行逐步向智能化发展,航天器在轨运行智能化已成为必然趋势.本文对国际空间站(International Space Station,ISS)在轨智能化...     

周边桁架式展开天线几何布局优化

讨论了某新型周边桁架式展开天线拉索系统的布局优化设计问题,将天线拉索系统的上、下悬索数量，以及中间调节索数量作为设计变量，在优化过程中主要考虑结构拉索系统原理精度约束，建立以结构重量最轻为优化目标，基于天线几何精度的展开天线布局优化数学模型．通过数值算例证明，拉索系统的布局优化设计对提高天线设计质量是非常有效的．     

太阳活动区R9077引起的强烈吸收事件

利用南极中山站的观测数据分析了太阳活动区R9077所引起的强烈吸收事件，其中2000年7月14日的太阳质子事件引起了持续3天多强烈的极盖吸收，同时，激烈的太阳活动使磁层处于极度扰动状态，磁层高能粒子沉降使许多持续时间较短的吸收峰叠加在极盖吸收背景之上，最突出的是7月1日的吸收增强事件，其最大值达26dB。这是自1997年2月中山站安装成像式宇宙噪声接收机以来观测到的最强的吸收，另一个较突出的吸收峰发生在14日1753UT前后，本文还讨论了产生这些吸收的原由。     

Dark matter search with the CALET detector on-board ISS

The CALorimetric Electron Telescope, CALET, mission is proposed for the observation of high-energy electrons and gamma-rays at the Exposed Facility of the Japanese Experiment Module on the International Space Station. The CALET has a capability to observe the electrons (without separation between e⁺ and e⁻) in 1 GeV–10 TeV and the gamma-rays in 20 MeV–several TeV with a high-energy resolution of 2% at 100 GeV, a good angular resolution of 0.06 degree at 100 GeV, and a high proton-rejection power of nearly 10⁶. The CALET has a geometrical factor of 1 m²sr, and the observation period is expected for more than three years. The very precise measurement of electrons enables us to detect a distinctive feature in the energy spectrum caused from WIMP dark matter in the Galactic halo. The excellent energy resolution of CALET, which is much better than GLAST or air Cherenkov telescopes over 10 GeV, enables us to detect gamma-ray lines in the sub-TeV region from WIMP dark matter annihilations. The CALET has, therefore, a unique capability to search for WIMP dark matter by the hybrid observations of electrons and gamma-rays.     

Changes in operational procedures to improve spaceflight experiments in plant biology in the European Modular Cultivation System

The microgravity environment aboard orbiting spacecraft has provided a unique laboratory to explore topics in basic plant biology as well as applied research on the use of plants in bioregenerative life support systems. Our group has utilized the European Modular Cultivation System (EMCS) aboard the International Space Station (ISS) to study plant growth, development, tropisms, and gene expression in a series of spaceflight experiments. The most current project performed on the ISS was termed Seedling Growth-1 (SG-1) which builds on the previous TROPI (for tropisms) experiments performed in 2006 and 2010. Major technical and operational changes in SG-1 (launched in March 2013) compared to the TROPI experiments include: (1) improvements in lighting conditions within the EMCS to optimize the environment for phototropism studies, (2) the use of infrared illumination to provide high-quality images of the seedlings, (3) modifications in procedures used in flight to improve the focus and overall quality of the images, and (4) changes in the atmospheric conditions in the EMCS incubator. In SG-1, a novel red-light-based phototropism in roots and hypocotyls of seedlings that was noted in TROPI was confirmed and now can be more precisely characterized based on the improvements in procedures. The lessons learned from sequential experiments in the TROPI hardware provide insights to other researchers developing space experiments in plant biology.     

Station-keeping control for a stratospheric airship platform via fuzzy adaptive backstepping approach

This paper presents a novel approach for station-keeping control of a stratospheric airship platform in the presence of parametric uncertainty and external disturbance. First, conceptual design of the stratospheric airship platform is introduced, including the target mission, configuration, energy sources, propeller and payload. Second, the dynamics model of the airship platform is presented, and the mathematical model of its horizontal motion is derived. Third, a fuzzy adaptive backstepping control approach is proposed to develop the station-keeping control system for the simplified horizontal motion. The backstepping controller is designed assuming that the airship model is accurately known, and a fuzzy adaptive algorithm is used to approximate the uncertainty of the airship model. The stability of the closed-loop control system is proven via the Lyapunov theorem. Finally, simulation results illustrate the effectiveness and robustness of the proposed control approach.     

European space research in support of international partnership

The envisaged future space research programmes, whether in the field of space exploration or Earth observation are becoming more and more technically complicated and so costly that a single nation can hardly afford to realize them. Major non-European space-faring nations, China and India will progressively play an important role besides US, Russia and Japan. The Space Advisory Group of the European Commission recommended that the European Commission supports within Horizon 2020 a comprehensive Robotic Mars-Exploration Programme under European leadership that should become an essential element of a coordinated international space research programme. The International Space Station (ISS) experience shows that cooperative space programmes build links between industries and laboratories from around the world, which then further develop in non-space related activities, with positive impact on the economy and scientific research. Strategies need to be developed to mitigate the gradual increasing risks incurred by climate change. In order to lower their entry barrier to engage in space emerging and developing space nations need to be included in cooperative space programmes. We present the recommendations of the Space Advisory Group of the European Commission concerning Europe's participation to global space endeavours.     

三星时差定位系统四站标校的布站方式研究

三星时差定位系统的四站标校方法可以在较大范围内提高定位精度,针对四站标校中不同的标校站布站方式会有不同标校效果的问题,分析了4个标校站的构型,站间基线长度以及卫星与标校站的空间位置关系对标校效果的影响。确定了四站标校的优选构型,四站标校效果随着标校站之间基线长度变大而变好,随着中心标校站距星下点的距离增大,两者之间连线方向的区域标校效果明显。该研究为四站标校方法的应用提供了技术支持。