碳纤维复合材料层板冲击损伤的空气耦合兰姆波成像检测

非接触式超声兰姆波方法能够对大面积复合材料板材进行快速检测,在自动成像检测上有着突出的优势。针对碳纤维/树脂基复合材料(CFRP)层压板采用空气耦合超声探头激励出A0模态兰姆波。在含冲击损伤的层板试样的同一侧激发和接收兰姆波进行扫描检测,针对冲击损伤区域以互相正交的两个方向进行兰姆波扫查,获得了不同位置的检测信号。对比在有无缺陷处板材中兰姆波传播信号的特征,对采集信号进行频域分析,以无缺陷处信号值为基准,利用信号差异系数(SDC)作为特征值,将扫查信号数据采用特征值全加和全乘的数据融合方法进行了缺陷形貌重构成像。成像结果能够良好的体现出冲击损伤的位置和两个方向的尺寸大小。     

Improving aircraft aerodynamic performance with bionic wing obtained by ice shape modulation

For Unmanned Aerial Vehicles (UAVs) with limited electrical power to achieve effectively anti-/de-icing at the leading edge of the wing, a strategy of ice shape modulation was proposed. Isolated simulated ice shape pieces printed by 3D printing technology are mounted on a NACA0012 finite wing model, and its lift/drag coefficients and suction-side velocity fields are measured by the six-component force balance and the Particle Imaging Velocimetry (PIV), respectively. The ratio of the spanwise length of a single ice shape piece to chord length and the spanwise length of the non-icing area between the two adjacent single ice shape pieces are defined as dimensionless ice shape length (w/c) and dimensionless modulation ratio (w/λ), respectively. The results indicate that for a fixed w/λ, the wing lift coefficient first increases and then drops with increasing w/c, and a peak value exists when w/c is between 0.1 and 0.2. The lower the w/λ is, the higher the wing lift coefficient will be. The periodical variation of the flow separation area along the spanwise direction is attributed on the one hand to the acceleration effect of the flow field in the non-icing area which reduces the separation area, and on the other hand to the cross-flow caused by the streamwise vortices from the non-icing area to the icing area which promotes the mixing of the flow field (similar to vortex generators). The obtained modulation law is verified through flight tests and provides guidance for the use of ice shape modulation scheme for UAVs that cannot be completely anti-/de-icing under severe weather conditions.     

Lean blowout characteristics of spray flame in a multi-swirl staged combustor under different fuel decreasing rates

Lean Blow Out (LBO) poses a significant safety hazard when occurring in aero-engines. Understanding the lower stability limits of gas turbine combustors and the characteristics of spray flame close to LBO are imperative for safe operation. The objective of this work is to evaluate the effects of fuel decreasing rates and pressure drops of the injector on LBO performances in a multi-swirl staged combustor equipped with an airblast injector. A set of hardware and control system was developed to realize a user-defined fuel supply law. High-speed imaging was applied to record complete LBO processes under the conditions of linear fuel reduction and stable airflow. Partical Image Velocimetry (PIV) and Planar Mie (PMie) scattering were used to acquire the flow fields and spray fields under non-reacting conditions. Experimental results have shown that LBO limits extend to leaner conditions as the pressure drop of the injector increases. With an increase of the fuel decreasing rate, the exhaust temperature before flame extinction increases, and the LBO Fuel-to-Air-Ratio (FAR) decreases. The time evolution of the integral CH* intensity conforms to a linear function during the LBO process. Proper Orthogonal Decomposition (POD) was used to analyze the dynamic characteristics of lean-burn flames. Under different fuel decreasing rates and pressure drops of the injector, flames close to LBO present similar modal spatial distributions, alternately appearing axial, radial, high-order axial, and high-order radial oscillations.     

一种多目标变邻域模拟退火算法及成像星座任务规划方法

为提高成像星座观测任务的完成度和成像质量，提出一种多目标变邻域模拟退火算法(MOVNSA)。首先，分析了敏捷成像卫星观测任务约束和星上资源约束，构造了评价任务完成度和成像质量的目标函数，建立成像任务约束满足模型。然后通过设计多目标模拟退火算法中解的编码解码规则、变邻域搜索方法以及选拔淘汰机制，实现了观测任务成像时刻的滑动优化，兼顾提升了观测任务的完成度和成像质量。最后通过工程实例对多种算法进行测试和分析，结果表明该方法收敛速度快，优化效果好，可以在满足用户需求的前提下最大化任务的完成度。     

大气环境监测卫星紫外高光谱大气成分探测仪技术发展及应用

大气环境监测卫星是我国民用空间基础设施中长期发展规划中的科研卫星。本文介绍了搭载于该卫星的新一代紫外高光谱大气成分探测仪，通过发展紫外高光谱大幅宽高分辨超光谱成像技术，使紫外谱段高光谱大气观测空间分辨率提升一倍，大幅提升气态污染物监测能力，取得良好的应用效果。     

一种改进的补偿因子区域不变CS算法及Simulink模型建模

相位补偿因子、距离向补偿因子和方位向补偿因子的产生是合成孔径雷达实时CS（Chirp Scaling，调频变标）算法中的关键。针对一种现有的补偿因子区域不变CS算法进行了改进，对于更新步长内各单元的统一补偿因子，采用该区域内所有单元频率平均值对应的补偿因子，代替原来使用的第一个单元对应的补偿因子，使得最终的补偿结果相比于原有算法更加均匀，计算量与原有算法相当。经过Matlab仿真验证，改进算法的成像指标得到提升。为便于生成FPGA代码，采用Simulink工具搭建了用于生成改进算法中三种补偿因子的模型。将Simulink模型输出的代码加载到Vivado软件中，对Vivado输出的补偿因子与由Matlab输出的精确补偿因子进行了对比，精度满足要求，验证了所搭建Simulink模型的准确性。     

多波束三维成像激光雷达高精度收发匹配方法研究

三维成像激光雷达技术为空间地理信息获取、目标立体探测提供了新的技术途径。以多波束并行收发、单光子阵列探测为特征的新一代三维成像激光雷达可提升雷达探测灵敏度、激光成像帧频与成像效率，从而实现远距离快速激光三维成像。三维成像激光雷达的激光发散角与接收视场需角秒量级的匹配精度。随着系统波束数量的增加，几十甚至上百波束的高精度收发波束匹配是系统设计装调的难点。聚焦多波束单光子阵列三维成像激光雷达的收发匹配难题，设计了基于衍射分束激光发射与光纤阵列接收的收发光学系统，提出了一种多波束激光雷达收发波束匹配方法，并对该方法的收发匹配误差源以及温度对其影响进行了详细分析仿真。实验验证结果表明，可实现64波束优于10 μrad的匹配误差，在工作温度范围内总的收发失配优于20.78 μrad，满足本系统设计时25.5 μrad的收发匹配裕量，系统对环境温度有较好的适应性，具有良好的工程应用前景。     

基于编码重建的快照式光谱成像技术进展

光谱成像技术能同时获得物体的空间信息和光谱信息，在科学研究及工业生产等领域发挥着重要作用。然而传统的高光谱成像系统存在着光学系统复杂、含有精密运动器件、曝光时间长等问题，极大地限制了其在许多场景的应用。近年来，高光谱成像系统向着轻小型化、快照式测量方向发展。简单介绍了光谱成像技术原理与分类，从基本原理、方法与实现等方面对基于衍射元件编码、编码孔径、宽带滤光片编码的快照式光谱成像系统进行了综述，并对现存的一些问题以及将来的应用与发展进行了讨论。     

CFRP夹层结构超声特征成像检测

采用便携式超声特征成像检测系统全波列采集检测信号,通过对缺陷特征信号的提取和重构,实现自动识别,可适用于曲面等不规则面的检测,定量精度达到0.1 mm。实验结果表明低频窄带超声换能器能够减小铜网对声波的衰减和畸变,超声特征成像层析成像方法可以对表面铜网结构CFRP泡沫夹层中分层、冲击和脱粘缺陷进行识别并精确定位和定量。检测方法快捷准确、重复性好、可靠性高。