拖影情况下快速飞行乒乓球体的实时识别与跟踪

快速飞行的乒乓球在图像采集过程中会产生拖影,影响甚至严重干扰对球体位置的准确识别和跟踪.对飞行乒乓球的拖影图像特点及实战型乒乓机器人的实际需求进行分析,在此基础上提出CS-BS-EF方法,将色彩分割、背景减除、椭圆拟合进行综合集成、优势互补,用以检测飞行球体的拖影范围并求取球心位置.实验结果表明该方法能够有效克服拖影影响,比较准确地识别和跟踪高速飞行的球体,且具有良好的抗干扰性、实时性.     

低轨航天器长期轨道预报的初步研究

低轨航天器的长期管理和维护需要较高精度的长期轨道预报,影响长期预报精度最主要的因素来自低轨航天器所受的大气阻力摄动.借助平均大气密度模型,以340 km高度的低轨航天器为例,研究了低轨长期轨道预报问题.利用基于长弧段的逐天精密定轨,可以修正参考点的平均密度.根据目前积累的数据,通过引入太阳自转周期27 d和半年180 d这2个周期拟合平均密度序列,未来的平均密度可以预报到较高精度.目前的计算结果表明,在此基础上低轨航天器的长期轨道预报精度可以得到保证,在不同算例中表现基本稳定可靠.     

中性浮力和失重环境人体运动仿真比较研究

为了模拟失重状态,航天技术发达的国家都建立了用于航天员出舱活动训练的中性浮力水槽。但与太空失重环境相比,水中存在的水动阻力会导致两种环境下人体运动反馈的差异性。基于ADAMS多体动力学仿真软件,按照“飞天”舱外航天服的质量分布,建立了着舱外服人体动力学模型。利用此模型仿真比较了水下和失重环境中肘关节屈伸、肩内收外展、肩矢状面内运动时人体躯干的动力学反馈,发现水下环境中模型躯干的转动速度峰值和平均值均较大。研究结果已应用于神舟七号载人飞行任务出舱活动航天员训练,建立的航天员人体动力学模型可应用于我国未来空间站任务出舱活动仿真分析。     

基于子孔径处理的大斜视SAR点目标仿真

机载合成孔径雷达(SAR)平台无法在长合成孔径时间内保持理想匀速直线运动,运动参数变化较大。利用全孔径算法进行成像处理,难以高效地生成聚焦良好的图像。针对这些问题,本文通过在回波信号方位向划分子孔径,分段处理,从而得到聚焦良好的图像。为增强适用性,子孔径处理时采用大斜视角下的距离多普勒(RD)算法,同时与传统正侧视及小斜视RD算法比较。经仿真验证:无论在大斜视情况下还是在有运动误差的情况下,本文算法都能使点目标良好聚焦,点散布函数的分布显示旁瓣均低于-20 dB,满足工程使用要求,说明了算法的有效性。     

舷外有源诱饵降落伞载荷运动仿真

对火箭发射降落伞悬降方式的舷外有源诱饵的载荷运动进行了分析。在此分析的基础上,通过在2个正交铅垂平面上的分解,建立了载荷运动的数学模型,描述了在2个正交铅垂平面上降落伞—载荷连线相对于铅垂线的角运动。利用Simulink进行了单个铅垂平面上的角运动的仿真和2个正交铅垂平面上的角运动的综合仿真。     

载人月球软着陆任务紧急中止轨道分析与设计

针对载人月球软着陆进程中,由载人飞船发动机失效引起的任务中止问题,首先分析主发动机失效可能引起的撞月轨道、环绕轨道、逃逸轨道等轨道类型及其特点;然后分析了中止任务执行的前提条件及中止过程的导航制导要求,在此基础上,考虑二体模型,提出普适的共面软着陆中止轨道计算方法;最后,在考虑登月飞船生保系统时间限制条件下,给出下降级主发动机失效情况下,撞月轨道的中止仿真算例。仿真结果表明,该方法可以实现登月飞船软着陆制动故障情形下的任务中止,能够确保飞船安全返回环月轨道。     

Friction compensation for low velocity control of hydraulic flight motion simulator: A simple adaptive robust approach

Low-velocity tracking capability is a key performance of flight motion simulator (FMS), which is mainly affected by the nonlinear friction force. Though many compensation schemes with ad hoc friction models have been proposed, this paper deals with low-velocity control without friction model, since it is easy to be implemented in practice. Firstly, a nonlinear model of the FMS middle frame, which is driven by a hydraulic rotary actuator, is built. Noting that in the low velocity region, the unmodeled friction force is mainly characterized by a changing-slowly part, thus a simple adaptive law can be employed to learn this changing-slowly part and compensate it. To guarantee the boundedness of adaptation process, a discontinuous projection is utilized and then a robust scheme is proposed. The controller achieves a prescribed output tracking transient performance and final tracking accuracy in general while obtaining asymptotic output tracking in the absence of modeling errors. In addition, a saturated projection adaptive scheme is proposed to improve the globally learning capability when the velocity becomes large, which might make the previous proposed projection-based adaptive law be unstable. Theoretical and extensive experimental results are obtained to verify the high-performance nature of the proposed adaptive robust control strategy.     

面向海洋机动目标跟踪监视的卫星重构组网优化与仿真

摘要： 针对海洋机动目标跟踪监视问题，提出通过卫星相位重构调整进行机动目标搜索跟踪的监视策略，构建地理坐标系下机动目标航位预测模型及基于霍曼转移的卫星调相组网方式，并采用NSGA II算法进行优化求解，对比分析卫星重构组网前后的机动目标发现概率.仿真结果表明：在卫星能量消耗允许范围内进行重构组网，能够有效提升对机动目标的发现概率，为海洋机动目标的搜索跟踪问题提供了一定的方法支持.     

An experimental method for squealer tip flow field considering relative casing motion

Squealer tip is widely used in turbines to reduce tip leakage loss. In typical turbine environment, the squealer tip leakage flow is affected by multiple factors such as the relative casing motion and the wide range of variable incidence angles. The development of experimental methods which can accurately model the real turbine environment and influencing factors is of great significance to study the squealer tip leakage flow mechanism. In the present paper, a low-speed turbine cascade test facility which can model the relative casing motion and wide range of variable incidence angles (−25° to 55°) is built. Based on the similarity criteria, a high-low speed similarity transformation method of the turbine cascade is established by considering the thickness of the turbine blade. A combined testing method of Particle Image Velocimetry (PIV) and local pressure measurement is proposed to obtain the complex flow structures within the tip cavity. The results show that the experimental method can successfully model the relative casing motion and the wide range of variable incidence angles. The low-speed cascade obtained by the similarity transformation can model the high-speed flow accurately. The measurement technique developed can obtain the complex flow field and successfully capture the scraping vortex within the squealer tip.     

一种用于空间翻滚目标接近控制的相对运动建模方法

针对空间翻滚目标等一类相对运动复杂的接近控制问题，首先重点研究了基于微分几何理论的相对运动建模，建立视线旋转坐标系下的三维相对运动方程；然后将三维相对运动解耦为视线瞬时旋转平面内的相对运动和该平面的转动，建立了统一的控制器设计框架，形式统一简洁、物理意义明确，消除传统制导与控制策略中俯仰、偏航通道的耦合因素影响；最后通过六自由度仿真算例证明，相对运动模型物理意义明晰、鲁棒性强、控制精度高、工程实现容易。