GPS伪卫星组合定位方法及在变形监测中的应用

针对GPS在城市高楼密集区、深山峡谷等区域所跟踪的可见星数目少且分布不佳导致定位精度下降,以及GPS系统本身在垂直方向定位精度较差的问题,提出GPS伪卫星组合定位新方法,利用伪卫星增强GPS技术提高定位精度。建立了GPS和伪卫星组合定位的观测模型,分析了伪卫星多路径效应的特点,给出了减弱伪卫星多路径误差的有效方法。对某大坝坝区的实测数据进行处理的结果表明,文中所提出的方法能有效地减弱伪卫星多路径效应产生的误差,GPS和伪卫星组合定位方法提高了系统的定位精度,特别是垂直方向的精度。     

侧滑对后掠翼飞机俯仰操纵影响的探讨

运用基础理论，对后掠翼飞机出现侧滑时的地仰状态变化进行分析。文中推导了后掠翼飞机的后掠角在有侧滑时对升力的影响，以及下洗角大小和分布的变化在水平尾翼处引起的俯仰力矩变化。通过时几种飞机的计算和分析比较，说明了后掠角在侧滑中具有提供上仰力矩的作用，从而在理论上解决了大后掠角飞机（如Ｊ—６飞机）出现侧滑时的急剧上仰现象和操纵措施问题，为在飞行中出现偏差进行修正提供了理论依据。对提高飞行员的驾驶技术和保证飞行安全有着积极的作用。     

低RCS飞行器表面弱散射源研究

飞行器表面不同宽度缝隙、不同高度台阶、不同结构形式对缝（主要包括横向对缝、锯齿对缝两种）等弱散射源对前方雷达截面（RCS）有着比较重要的影响,为了说明控制弱散射源的重要性,介绍了常规飞行器表面结构的缝隙、台阶等弱散射源的分布情况及特点,采用理论方法分析了缝隙的雷达后向散射强度,设计了低RCS载体和实验模型,开展了不同宽度缝隙、不同高度台阶、不同结构形式对缝的RCS实验。结果表明：减小缝隙宽度、台阶高度,采用锯齿缝隙代替直缝隙等方法,是控制隐身飞行器表面电磁缺陷的有效技术途径。     

An introduction to the lunar and planetary science activities in Korea

Korea is planning a series of lunar space programs in 2020 starting with a lunar orbiter and a lander with a rover. Compared to other countries, Korea has a relatively brief history in space and planetary sciences. With the expected Korean missions on the near-term horizon and the relatively few Korean planetary scientists, Korea Institute of Geoscience and Mineral Resources (KIGAM) has established a new planetary research group focusing on development of prospective lunar instruments, analysis of the publicly available planetary data of the Moon, organizing nationwide planetary workshops, and initiating planetary educational programs with academic institutions. Korea has also initiated its own rocket development program, which could acquire a rocket-launch capability toward the Korean lunar mission. For the prospective Korea’s lunar science program, feasibility studies for some candidate science payloads have been started since 2010 for an orbiter and a lander. The concept design of each candidate instrument has been accomplished in 2012. It is expected that the development of science payloads may start by 2014 as Phase A. Not only developing hardware required for the lunar mission but also educational activities for young students are high priorities for Korea. The new plan of the Korean lunar mission can be successfully accomplished with international cooperative outreach programs in conjunction with internationally accessible planetary data system (PDS). This paper introduces the KIGAM’s international cooperative planetary research and educational programs and also summarizes other nationwide new developments for Korean lunar research projects at Kyung Hee University and Hanyang University.     

Precise orbit determination using the batch filter based on particle filtering with genetic resampling approach

In this study, genetic resampling (GRS) approach is utilized for precise orbit determination (POD) using the batch filter based on particle filtering (PF). Two genetic operations, which are arithmetic crossover and residual mutation, are used for GRS of the batch filter based on PF (PF batch filter). For POD, Laser-ranging Precise Orbit Determination System (LPODS) and satellite laser ranging (SLR) observations of the CHAMP satellite are used. Monte Carlo trials for POD are performed by one hundred times. The characteristics of the POD results by PF batch filter with GRS are compared with those of a PF batch filter with minimum residual resampling (MRRS). The post-fit residual, 3D error by external orbit comparison, and POD repeatability are analyzed for orbit quality assessments. The POD results are externally checked by NASA JPL’s orbits using totally different software, measurements, and techniques. For post-fit residuals and 3D errors, both MRRS and GRS give accurate estimation results whose mean root mean square (RMS) values are at a level of 5 cm and 10–13 cm, respectively. The mean radial orbit errors of both methods are at a level of 5 cm. For POD repeatability represented as the standard deviations of post-fit residuals and 3D errors by repetitive PODs, however, GRS yields 25% and 13% more robust estimation results than MRRS for post-fit residual and 3D error, respectively. This study shows that PF batch filter with GRS approach using genetic operations is superior to PF batch filter with MRRS in terms of robustness in POD with SLR observations.     

Severe disruption of the cytoskeleton and immunologically relevant surface molecules in a human macrophageal cell line in microgravity—Results of an in vitro experiment on board of the Shenzhou-8 space mission

During spaceflight the immune system is one of the most affected systems of the human body. During the SIMBOX (Science in Microgravity Box) mission on Shenzhou-8, we investigated microgravity-associated long-term alterations in macrophageal cells, the most important effector cells of the immune system. We analyzed the effect of long-term microgravity on the cytoskeleton and immunologically relevant surface molecules. Human U937 cells were differentiated into a macrophageal phenotype and exposed to microgravity or 1g on a reference centrifuge on-orbit for 5 days. After on-orbit fixation, the samples were analyzed with immunocytochemical staining and confocal microscopy after landing. The unmanned Shenzhou-8 spacecraft was launched on board a Long March 2F (CZ-2F) rocket from the Jiuquan Satellite Launch Center (JSLC) and landed after a 17-day-mission. We found a severely disturbed actin cytoskeleton, disorganized tubulin and distinctly reduced expression of CD18, CD36 and MHC-II after the 5 days in microgravity. The disturbed cytoskeleton, the loss of surface receptors for bacteria recognition, the activation of T lymphocytes, the loss of an important scavenger receptor and of antigen-presenting molecules could represent a dysfunctional macrophage phenotype. This phenotype in microgravity would be not capable of migrating or recognizing and attacking pathogens, and it would no longer activate the specific immune system, which could be investigated in functional assays. Obviously, the results have to be interpreted with caution as the model system has some limitations and due to numerous technical and biological restrictions (e.g. 23 °C and no CO₂ supply during in-flight incubation). All parameter were carefully pre-tested on ground. Therefore, the experiment could be adapted to the experimental conditions available on Shenzhou-8.     

嵌入式高可信架构中基于静态模型的调度研究

为解决嵌入式高可信软件架构中的实时调度问题,分析了现有采用分区机制的安全系统中分区调度的不足,提出了一种基于固定周期分区的静态调度模型,并采用优先级位图算法建立了两级调度机制。为了保障分区中任务的实时性和正确性,对分区中任务采用静态优先级和最早时限优先调度(EDF)动态优先级两种调度策略,分别就其任务调度条件和可调度性进行了理论研究,针对复杂的动态优先级任务提出了一种可调度条件,并通过仿真实验进一步验证了此调度条件的正确性。     

Korean space food development: Ready-to-eat Kimchi, a traditional Korean fermented vegetable,sterilized with high-dose gamma irradiation

Addition of calcium lactate and vitamin C, a mild heating, deep-freezing, and gamma irradiation at 25 kGy were conducted to prepare Kimchi as a ready-to-eat space food. It was confirmed that the space food was sterilized by an irradiation at 25 kGy through incubation at 37 °C for 30 days. The hardness of the Space Kimchi (SK) was lower than the untreated Kimchi (CON), but higher than the irradiated Kimchi (IR). Also, this result was supported by the scanning electron microscopic observation. Sensory attributes of the SK were similar to CON, and maintained during preservation at 35 °C for 30 days. According to the Ames test, Kimchi sterilized with a high-dose irradiation exerted no mutagenic activity in the bacterial strains of Salmonella typhimurium. And, the SK was certificated for use in space flight conditions during 30 days by the Russian Institute of Biomedical Problems.     

舱外航天服热设计技术

提出了舱外航天服热设计技术的研究内容,回顾了国内外在该领域的研究现状.分析了二维冷／热宽温度范围内的人体热调节系统、手指温度仿真以及液冷通风系统传热传质过程,建立了舱外航天服热设计仿真技术平台.通过人体热生理实验对该热设计仿真技术进行了验证.