鸟撞高速摄影试验与过程研究

研究鸟撞问题时,一个很关键的问题是鸟撞载荷力学模型的建立.对飞机风挡进行全尺寸鸟撞试验,通过对鸟弹撞击风挡玻璃过程高速摄影、动态应变测量等试验结果的分析,提出了斜撞击过程的鸟撞载荷可以简化为三角形脉冲的简化分析模型,利用该简化载荷模型对风挡玻璃鸟撞进行的有限元分析,结果和试验结果很好地相符.      

一种无人机通用综合检测系统

为了增强无人机系统检测控制设备的通用性,提高检测精度,设计了一种基于面向仪器系统的PCI扩展(PXI)总线及虚拟仪器(VI)的无人机通用综合检测系统.针对无人机系统工作的特点,从功能设计、体系结构、软硬件设计等方面对该系统的通用性进行了探讨.该系统采用了虚拟仪器技术,硬件设计采用PXI体系结构,软件以LabWindows/CVI作为开发平台.通过配备不同的接口适配器和对软件参数设置进行相应更改,可适用于不同型号的无人机电气、舵机、发动机、起飞和回收等系统检测.同时提供矩阵输出,利用系统资源满足无人机各种信号测试/激励的需求.该系统已成功应用于某复杂型号无人机的地面综合检测.      

基于OCP的实时自适应资源管理技术研究

无人飞行器的自主飞行是一个非常复杂的过程,未来的先进无人飞行器要求能够对外界的环境扰动和突发事件做出迅速的反应,这就对资源的分配与任务的调度有了更高的要求,传统的技术手段已经不能适应先进无人飞行器的要求,本文从先进无人飞行器对QoS(Quality of service,服务质量)的要求出发,着重介绍了一种基于全新的OCP(Open Control P latform,开放式控制平台)的实时自适应资源管理技术,在介绍了一种Anytim e任务的调度方案之后,给出了下一步工作的重点。     

高分辨率详查相机窗口热门/防护门的发展概况

相机窗口热门／防护门是航天相机的关键部件。文章概要介绍了高分辨率详查相机窗口热门 ／防护门在相机中的作用以及国内外的发展情况和近期态势。     

连续变速颤振试验信号处理的递推时频分析方法

针对连续变速颤振试验信号的非平稳特点及在线分析需求,提出了一种递推时频分析方法。该方法利用自适应算法跟踪一个时变系统,从而获得具有时变系数的参数化数学模型,进而可得到信号的时变参数谱。数值仿真结果证明了该方法的可行性与优越性,低速风洞气弹模型的连续变速颤振试验验证了该方法的工程应用前景。     

多无人机协同搜索区域划分与路径规划

针对多无人机广域协同搜索问题，研究无人机工作区间划分和全区域覆盖搜索路径规划2个子问题。采用按无人机来向均衡划分的方法和凹点凸分解的方法，开展了凸多边形和非凸多边形的区域划分研究，将多机协同搜索问题转化为子区域上的单机搜索问题；在此基础上采用"Z"型路径覆盖方法以及Dubins转弯路径，对各个无人机开展覆盖其子区域的搜索路径规划，从而建立了一个区域划分和路径规划的整体调用框架，能够对目标区域快速进行划分并生成飞行路线。最后，对凸多边形和非凸多边形区域搜索开展仿真计算，验证了该方法的有效性。     

Method for denoising and reconstructing radar HRRP using modified sparse auto-encoder

A high resolution range profile (HRRP) is a summation vector of the sub-echoes of the target scattering points acquired by a wide-band radar. Generally, HRRPs obtained in a non-cooperative complex electromagnetic environment are contaminated by strong noise. Effective pre-processing of the HRRP data can greatly improve the accuracy of target recognition. In this paper, a denoising and reconstruction method for HRRP is proposed based on a Modified Sparse Auto-Encoder, which is a representative non-linear model. To better reconstruct the HRRP, a sparse constraint is added to the proposed model and the sparse coefficient is calculated based on the intrinsic dimension of HRRP. The denoising of the HRRP is performed by adding random noise to the input HRRP data during the training process and fine-tuning the weight matrix through singular-value decomposition. The results of simulations showed that the proposed method can both reconstruct the signal with fidelity and suppress noise effectively, significantly outperforming other methods, especially in low Signal-to-Noise Ratio conditions.     

快变换交流方波埋弧焊电源研制

设计了一种双逆变电路结构的快变换交流方波埋弧焊电源,该电源由全桥型一次逆变电路和半桥型二次逆变电路组成.二次逆变电路由续流耦合电感、小功率电压尖峰吸收保护逆变回馈电路、IGBT半桥电路构成.一次逆变电路采用了电压、电流双闭环控制,二次逆变电路采用“临界共同导通”的控制策略,并对其电路换向过程进行了分析.试验结果表明,这种交流方波埋弧焊电源在电流换向过程中换向速度快且无过零死区时间,保证了电弧稳定性,具有良好的工程应用前景.     

Mission-driven autonomous perception and fusion based on UAV swarm

Distributed autonomous situational awareness is one of the most important foundation for Unmanned Aerial Vehicle (UAV) swarm to implement various missions. Considering the application environment being usually characterized by strong confrontation, high dynamics, and deep uncertainty, the distributed situational awareness system based on UAV swarm needs to be driven by the mission requirements, while each node in the network can autonomously avoid collisions and perform detection mission through limited resource sharing as well as complementarity of respective advantages. By efficiently solving the problems of self-avoidance, autonomous flocking and splitting, joint estimation and control, etc., perception data from multi-platform multi-source should be extracted and fused reasonably, to generate refined, tailored target information and provide reliable support for decision-making.     

Performance analysis of variable speed tail rotors with Gurney flaps

Gurney Flaps (GFs) are used for improving the performance of variable speed tail rotors. A validated analytical helicopter model able to predict the main and tail rotor power is utilized. The fixed height GF has substantially small influence on the tail rotor power in hover and low to medium speed forward flight, and can obtain significant power reduction in high speed flight. This ability can be enhanced by decreasing the tail rotor speed. With the deployment of GF, the collective pitch of the tail rotor decreases, and the maximum tail rotor thrust increases. The GF can compensate the reduction of the maximum thrust by the decrease in the tail rotor speed. The GF with a height of 5% of the chord length can almost remedy 50% of the thrust reduction introduced by decreasing 10% of the tail rotor speed. With the increase of GF height, the maximum thrust generated by the tail rotor increases. The GF with larger height can cause the increase in the tail rotor power in hover and low to medium speed flight. The retractable GF can obtain more power savings than the fixed height GF. However, the benefit is substantially small even in high speed flight. Considering the side effects introduced by the active GF, the fixed height GF may be more preferable. The mechanism for the retractable GF to generate more tail rotor thrust is to increase the lift in advancing side due to the higher dynamic pressure.