钱杭评《中国宗族史研究入门》

以编撰角度多方面解读《中国宗族史研究入门》。该书具有一定教学实用价值,是了解当前学术界中国宗族史研究动态、研究方法等方面的一本学术入门书籍。对于我国人才培养模式的优化、中国宗族史研究的深入化等方面将起到积极的推动作用,为读者系统了解历代具有代表性的宗族研究成果提供借鉴和帮助。     

一类滞后不确定相似组合系统的分散控制

本文给出了一个使滞后的相似组合大系统镇定的分散鲁棒控制器的设计方法。不确定性是时变的,是以不确定参数出现在每个子系统中,而存在于互联项中的不确定性假设可能知道它的边界,当系统具有某种特征时,简化了一般控制器的设计。     

CLVD 法制备C/C复合材料工艺探索研究

研究了采用化学液气相沉积法制备C／C复合材料的工艺过程，分析了不同预制件、温度、浸泡时间等工艺参数对致密速度、效果的影响，并总结出了一套快速高效的致密方法。     

卫星结构中的非金属材料

介绍了各种复合材料、胶粘剂、高分子材料和工业陶瓷等非金属材料的性能及其在卫星结构中的应用情况。强调了非金属材料在提高卫星性能、减轻卫星结构质量，以及增大卫星有效栽荷方面的作用。最后指出了卫星结构材料高性能、多功能、复合化、智能化、低成本以及高环境相容性的发展趋势。     

民用飞机技术出版物规范应用

技术出版物作为民用飞机产品的重要组成部分,用于指导运营人正确地操作和维护飞机.为了满足相关适航规章的要求和用户对于交互式电子技术手册日益增长的需求,实现手册全寿命周期管理,飞机制造商应在保证手册完整、正确、准确的基础上,进一步实现手册的标准化、规范化和结构化.本文对国际主流技术出版物规范的特点、规范的确定、应用方法和风险等进行了介绍和阐述.     

老龄飞机复合材料维修策略初探

老龄飞机复合材料损伤具有普遍性、重复性、严重性、隐蔽性和可预见性等特点。有针对性的维修策略,包括改进检查手段,增加检查对象,提倡主动性预防维修,提高维修质量标准等,对保障老龄飞机安全具有重要意义。     

环境减灾-1A、1B卫星光学载荷在轨运行情况分析

环境减灾-1A、1B卫星于2008年9月6日发射升空,至2013年7月20日,2颗卫星的4台宽覆盖多光谱CCD相机、1台超光谱成像仪(HSI)和1台红外相机(IRS)已在轨稳定工作近5年,共获取超过61万景2级地面遥感图像数据。文章对在轨运行的光学载荷遥测参数进行了统计和分析,结果表明:DC/DC电压遥测变化量不超过5%,关键光机部位温度遥测变化量小于2.25℃,转动部件电压和电流遥测变化量小于1%,遥测参数均在设计范围内,显示光学载荷在轨稳定正常工作。最后,综合分析了光学载荷图像数据应用情况,分析表明:光学载荷图像数据具有较强的地物影像分类、提取和分辨能力,与国外同类卫星比较,水体识别符合度达到90%以上,旱情分级符合度大于66%,光谱分辨率达到5nm,积雪范围提取精度达到90%以上,在各类应用领域发挥了较大的效能。     

Integration of lessons from recent research for “Earth to Mars” life support systems

Development of reliable and robust strategies for long-term life support for planetary exploration must be built from real-time experimentation to verify and improve system components. Also critical is incorporating a range of viable options to handle potential short-term life system imbalances. This paper revisits some of the conceptual framework for a Mars base prototype which has been developed by the authors along with others previously advanced (“Mars on Earth^®”) in the light of three years of experimentation in the Laboratory Biosphere, further investigation of system alternatives and the advent of other innovative engineering and agri-ecosystem approaches. Several experiments with candidate space agriculture crops have demonstrated the higher productivity possible with elevated light levels and improved environmental controls. For example, crops of sweet potatoes exceeded original Mars base prototype projections by an average of 46% (53% for best crop) ultradwarf (Apogee) wheat by 9% (23% for best crop), pinto bean by 13% (31% for best crop). These production levels, although they may be increased with further optimization of lighting regimes, environmental parameters, crop density etc. offer evidence that a soil-based system can be as productive as the hydroponic systems which have dominated space life support scenarios and research. But soil also offers distinct advantages: the capability to be created on the Moon or Mars using in situ space resources, reduces long-term reliance on consumables and imported resources, and more readily recycling and incorporating crew and crop waste products. In addition, a living soil contains a complex microbial ecosystem which helps prevent the buildup of trace gases or compounds, and thus assist with air and water purification. The atmospheric dynamics of these crops were studied in the Laboratory Biosphere adding to the database necessary for managing the mixed stands of crops essential for supplying a nutritionally adequate diet in space. This paper explores some of the challenges of small bioregenerative life support: air-sealing and facility architecture/design, balance of short-term variations of carbon dioxide and oxygen through staggered plantings, options for additional atmospheric buffers and sinks, lighting/energy efficiency engineering, crop and waste product recycling approaches, and human factor considerations in the design and operation of a Mars base. An “Earth to Mars” project, forging the ability to live sustainably in space (as on Earth) requires continued research and testing of these components and integrated subsystems; and developing a step-by-step learning process.     

可展开式辐射器热控对航天器轨道调整的适应性分析

为提高航天器热控系统对轨道调整的适应能力，本文研究了与流体回路耦合的可展开式辐射器热控方案在不同轨道高度下的热控性能，分析了不同轨道高度时辐射器面临的热环境的影响，在不同轨道高度下比较了固定辐射器与可展开辐射器的热控特性。结果表明，随着辐射器展开角度的变化，辐射器吸收的空间热流随之发生变化，从而对热控系统的散热能力带来直接影响，调节辐射器的角度可以扩大其对外散热能力。在工程应用中，基于热控流体回路，通过调节可展开式辐射器的展开角度，可以有效提高航天器的轨道热适应能力。     

Crew autonomy for deep space exploration: Lessons from the Antarctic Search for Meteorites

Future piloted missions to explore asteroids, Mars, and other targets beyond the Moon will experience strict limitations on communication between vehicles in space and control centers on Earth. These limitations will require crews to operate with greater autonomy than any past space mission has demonstrated. The Antarctic Search for Meteorites (ANSMET) project, which regularly sends small teams of researchers to remote parts of the southern continent, resembles a space mission in many ways but does not rely upon a control center. It provides a useful crew autonomy model for planners of future deep space exploration missions. In contrast to current space missions, ANSMET gives the crew the authority to adjust competing work priorities, task assignments, and daily schedules; allows the crew to be the primary monitor of mission progress; demands greater crew accountability for operational errors; requires the crew to make the most of limited communication bandwidth; adopts systems designed for simple operation and failure recovery; and grants the crew a leading role in the selection and stowage of their equipment.