高超声速飞行器DPIV内流阻力测量技术研究

为了研究吸气式高超声速飞行器的气动特性,提出一种新的内流阻力测量技术,即采用粒子图像测速技术和总压测量技术相结合,测量超燃发动机尾喷管流场速度矢量和皮托压力分布,间接获得内流出口处平均马赫数和内流出口处静压平均值,从而实现高超声速通气模型内流阻力测量。研究结果表明:粒子图像测速技术和总压测量技术相结合,成功地实现了内流阻力测量;试验获得的粒子图像,能够清楚地显示喷管出口位置内外流的分界面及边界层和边界层的尾迹;粒子图像测速试验获得的速度矢量场结果准确,精度高,能够提供远远超出传统测量技术所能提供的流场信息。      

基于分枝模态法的面对称布局飞行器结构动力学建模

针对面对称布局飞行器整体模态具有对称和反对称的特征,应用分枝模态法建模时采取以对称和反对称模态划分分枝,避免了按部件划分分枝产生的约束模态问题,且分枝间实现惯性和气动力解耦,有助于减缩自由度和计算规模.数值算例表明:其建模精度满足工程要求.     

无人机飞行控制半物理仿真系统设计

飞控计算机应用到无人机上之前,需要对其进行较为全面的仿真测试。本文设计了对飞控计算机进行全面测试的飞行控制半物理仿真系统。选用RTLinux作为操作系统,使用MATLAB Simulink建立某型无人机飞控系统仿真模型,采用RTW（Real Time Workshop）工具,自动生成优化的嵌入式实时仿真代码,在线调整模型参数并监视仿真数据。大量仿真试验表明：该方法能够较大程度地提高仿真代码的效率和可靠性,降低仿真软件的开发工作量,缩短开发周期,提高仿真软件的质量和仿真系统的性能,是一种值得推广的方法。     

Fostering links between environmental and space exploration: the Earth and Space Foundation

The links between Earth and space exploration occur across a broad spectrum, from the use of satellite technology to support environmental monitoring and habitat protection to the study of extreme environments on Earth to prepare for the exploration of other planets. Taking the view that Earth and space exploration are part of a mutually beneficial continuum is in contrast to the more traditionally segregated view of these areas of activity. In its most polarized manifestation, space exploration is regarded as a waste of money, distracting from solving problems here at home, while environmental research is seen to be introspective, distracting from expansive visions of exploring the frontier of space. The Earth and Space Foundation was established in 1994 to help further mutually beneficial links by funding innovative field projects around the world that work at the broad interface between environmental and space sciences, thus encouraging the two communities to work together to solve the challenges facing society. This paper describes the work of the foundation and the philosophy behind its programmes.     

Initial design of laboratories for sustainable habitation

An effective and self-sustainable artificial habitat design is essential for human spaceflight and expansion of mankind into orbit or towards other celestial bodies. There are two approaches that need to be implemented in future sustainable habitats: the use of re-cycling technologies in order to gain experience in closed-loop processes and the primary production of resource materials using In Situ Resource Utilisation (ISRU) principles. Various products will be provided and, where applicable, recycled in such a system taking into account basic human factors requirements such as crew work load capacity, safety and well-being, namely:     

嫦娥探测器分段渐倾转移机构设计

巡视探测器转移机构是在地外空间环境执行巡视探测器转移释放任务的空间机构。与美国、苏联转移任务不同，中国探月工程（CLEP）二期着陆器采用腿式着陆缓冲机构及巡视器顶部搭载方式，转移任务沿着陆器周向展开距离及巡视器释放高度增加，转移难度增大。在设计阶段，转移机构是否符合探测任务严苛的工程约束及设计指标；在执行阶段，转移机构能否在月面非确知环境下正常展开、转移过程是否稳定可靠，是嫦娥探测器顺利完成探测任务的关键。为保障月球后续任务及火星探测任务中转移机构的设计需要，根据巡视器转移系统特点，以探月二期工程中首次探索并成功自主设计定型的嫦娥分段渐倾转移机构为例，对巡视器转移系统的组成、任务需求及设计约束予以阐述，并结合参研人员经验，对机构研制方案的选取、关键环节设计、工程状态及任务验证情况进行说明，以为后续工作及相关工程提供参考。     

面向无人机蜂群的航电云多层任务调度模型

在航空作战体系中，基于航电云的无人机（UAV）蜂群作战是提高未来无人机综合作战能力的一种新模式。针对无人机蜂群作战的航电云架构，如何将云端作战任务派发到无人机且保证作战任务完成时间是其中关键。在无人机蜂群分层分簇网络结构和模块级资源虚拟化的基础上，对传统单层平台级任务调度模型进行改进，提出了一种细化到模块级的多层任务调度模型，将作战任务从云端逐层调度到无人机功能模块上执行。利用OMNeT++对无人机蜂群多层任务调度模型以及传统的单层任务调度模型分别进行仿真，云端以攻击使命组为例构建使命组集进行分配，并对任务吞吐量、消息平均端到端延时和任务完成时间进行性能对比。仿真结果表明：与平台级单层任务调度相比，在执行任务方面，模块级多层任务调度模型将单个任务平均完成时间降低了46.2%，将使命组完成时间降低了52.1%，在保证任务吞吐量的基础上具有对复杂任务更稳定的调度能力；在网络性能方面，模块级多层任务调度模型消息端到端延时更低，延时分布更集中，提高了网络消息传输的实时性。     

地月空间NRHO与DRO在月球探测中的应用研究

针对地月系统三体问题低能往返轨道转移在月球探测中的应用研究，结合天体借力飞行技术与混合优化技术，系统分析了不同目标轨道与借力方位对任务飞行时间与燃料消耗等关键参数的影响，给出了往返轨道设计初值的选择策略。针对轨道设计初值猜想问题，首先采用遗传算法与二体Lambert转移快速确定轨迹拼接点初值。在同时考虑近月点与近地点多约束条件下，基于序列二次规划算法与多重打靶法进一步对燃料最优的地月往返轨道进行研究，并推导了约束方程解析梯度提高设计效率。最后分析近月点高度、不同目标轨道的转移时间与燃耗变化特性，对于考虑月球借力的地月空间轨道往返转移设计及参数选取具有重要的参考价值。     

Space science innovation: How mission sequencing interacts with technology policy

Innovation is fundamental to a space agency's mission. Yet, the industry's current dominant approach to new technology development – concerted investment in step-changes in capabilities to support a particular application – contradicts the conventional wisdom of innovation theory. In order to understand why, this paper uses a unique empirical case study, in which exogenous historical circumstances created unexpected additional opportunities for technology investment, to explore the merits of this approach. The value of follow-on periods of R&D is assessed in terms of simple marginal returns, implications for workforce dynamics and the interaction of mission sequencing and technology strategy. The analysis reveals an important contingency between mission paradigm and the value of follow-on investment. Specifically, while marginal performance improvements can be achieved at lower costs, their value depends on the availability of an appropriate mission opportunity. In the current paradigm, the risk of obsolescence is high compared to the potential benefit. However, if a new small mission, frequent flights, paradigm were to take hold, there may be great value in refocusing R&D strategy on later round improvements.     

飞行器轨道的特征点

针对飞行器轨道的数据处理问题,首次提出了轨道的特征点概念。轨道的特征点是飞行器动力突变的真实反映,轨道特征点的客观存在,要求我们在测量数据处理中,在多项式表示轨道时应以特征点为端点,或以特征点为轨道样条表示的当然节点,否则将带来轨道的表示误差,在残差数据中波动现象。介绍了提取轨道特征点的方法,仿真与实际测量数据的处理结果表明：特征点提取方法准确度较镐;特征点为当然节点的样条函数表示轨道能消除节点选