运载火箭主动段自适应增广控制

针对运载火箭上升段在复杂飞行环境、大不确定性干扰和振动等因素的影响下，传统PID控制方法难以满足高品质控制需求的问题，进行了自适应增广控制(AAC)方法研究，以实现对运载火箭姿态的精确控制。在深入分析自适应增广控制系统整体构架的基础上，通过标称PID控制器设计与基于粒子群优化(PSO)的数字滤波器设计实现了刚体控制及对弹性振动的抑制；继而针对大范围干扰、不确定性和由于滤波器切换产生的弹性振动影响，设计了在线调整算法自适应调节PID控制增益，并对其工作机理与参数设计原则进行研究；然后设计干扰补偿回路和主动减载回路以减小内外扰动、弹性振动和风载荷影响；最后在弹性振动、风干扰和参数不确定性等因素同时作用的状态下进行仿真分析，验证了自适应增广控制系统能够有效应对运载火箭主动段复杂飞行环境的影响，大幅度提升综合控制性能，具有理论研究意义与工程应用价值。     

基于CMPSO算法的永磁同步电机转动惯量识别研究

永磁同步电机(PMSM)是一种具有很强非线性的动态系统,在工业驱动应用中发挥着重要作用。实时辨识转动惯量对于高精度PMSM系统控制和稳定性状态监测具有重要意义,但传统转动惯量识别方法精度较低。在传统离散模型参考自适应理论基础之上,用柯西变异粒子群优化(CMPSO)算法代替待辨识参数自适律设计环节,以实现PMSM转动惯量识别。该转动惯量辨识方法充分利用了CMPSO算法的快速高效收敛性,仿真结果和试验结果表明了可行性、正确性和准确性。     

某航天器输氢管道系统结构完整性评估

为保障某航天器在服役年限内不发生事故，针对航天器上采用插入焊接技术的精密管道系统进行结构完整性评估。在考虑到系统存在整圈的环形未焊透缺陷基础上，结合工程实践，假设在焊接区域存在更危险的平面缺陷。首先，开展高压气相热充氢试验下的标准拉伸和三点弯试验得到管道系统材料"J-75"在临氢环境下应力应变曲线和断裂韧性。其次，采用有限元程序计算系统在内压、惯性载荷与离面位移作用下的应力分布，考虑到间隙配合中的不确定性，改变模型中的最大间隙多次模拟计算，发现最大应力位置基本不变，以此区域作为假想缺陷的具体萌生区域。最后，采用失效评估图（FAD）方法对存在4种缺陷模式的系统分别进行结构完整性评估。通过引入安全裕度的概念，发现系统在含有初始尺寸（0.15 mm）的4种平面缺陷时，均处于安全状态，并且安全裕度都在2倍以上；通过工程临界分析（ECA）发现随着缺陷尺寸的增大，系统中含有缺陷2（位于管道焊接区域最大应力处的轴对称平面且沿焊深方向扩展的缺陷）时最为危险，且当缺陷深度超过0.61 mm时将断裂失效；考虑到测试数据的弥散性，针对系统最危险的模式，以安全裕度为可靠性指标，将失效评估图方法与可靠性评价相结合，得到系统在含有尺寸为0.15 mm的缺陷2情况下保有足够安全裕度的可靠性下限值超过0.999 5。     

Near-wall topological patterns and flow structures over a simplified Danaus plexippus model

Studies on the high-lift mechanisms of butterfly gliding flights shed light on the design of the micro air vehicles. The flow field around a simplified Danaus plexippus model is investigated using the hydrogen bubble visualization and the Particle Image Velocimetry (PIV) techniques. There are three near-wall topological patterns with different Angles of Attack (AoAs): the separation bubble, the Leading-Edge Vortex (LEV) and the high AoAs flow. For the separation bubble pattern, two saddles and two foci form in the middle of the model. The features of the LEV pattern are the leading-edge separation lines. The topological characteristics of the separation lines are changed by the interaction between the LEV and the Wing-Tip Vortex (WTV). For the high AoAs flow pattern, four unstable foci are found at the forewing and the hindwing respectively. The angle between the trajectory of the WTV and the model increases with increasing AoA even though the slope of the WTV angle versus AoA curve declines at the moderate AoAs.     

平板表面薄圆柱绕流摩擦力矢量场全局测量

针对壁面摩擦力矢量场测量问题,基于剪切敏感液晶(SSLC)涂层技术建立了一种测量平板表面摩擦力矢量场的方法。该方法基于多视角测量原理,采用六台同步相机从不同方向同时采集SSLC涂层在摩擦力作用下的颜色变化,与采用单台相机相比能够降低测量噪声,并且具有测量非定常流动的摩擦力场的潜力。应用该方法测量了平板表面薄圆柱绕流的摩擦力矢量场,结果表明:(1)SSLC涂层能够以彩色方式定性显示壁面摩擦力信息;(2)通过对不同方向观测的SSLC涂层颜色进行分析处理,该方法能够高分辨率测量薄圆柱绕流的摩擦力矢量场,详细地捕获了流动特征;(3)同一份SSLC涂层可以重复使用并且可用于测量不同的摩擦力矢量场。     

Remote-controlled flexible pose measurement system and method for a moving target in wind tunnel

The measurement of position and attitude parameters for the isolated target from a high-speed aircraft is a great challenge in the field of wind tunnel simulation technology. This paper proposes a remote-controlled flexible pose measurement system in wind tunnel conditions for the separation of a target from an aircraft. The position and attitude parameters of a moving object are obtained by utilizing a single camera with a focal length and camera orientation that can be changed based on different measurement conditions. Using this proposed system and method, both the flexibility and efficiency of the pose measurement system can be enhanced in wind tunnel conditions to meet the measurement requirements of different objects and experiments, which is also useful for the development of an intelligent position and attitude measurement system. The position and the focal length of the camera also can be controlled remotely during measurements to enlarge both the vertical and horizontal measurement range of this system. Experiments are conducted in the laboratory to measure the position and attitude of moving objects with high flexibility and efficiency, and the measurement precision of the measurement system is also verified through experiments.     

热防护系统损伤容限分析

建立了含初始矩形损伤的热防护系统(Thermal protection system,TPS)气动热分析的CFD数值模型,分析结果表明损伤区域侧壁出现了很高的热流密度峰值,并且迎风面侧壁峰值高于背风面,而损伤区域底部热流密度却很低。利用分析获得的热流密度建立了含损伤和无损伤TPS的有限元传热分析模型。分析结果表明:损伤的存在导致防热瓦最高温度急剧上升,超过其材料能承受的极限温度(1 500℃),防热瓦首先失效,而损伤对机体最高温度影响较小。最后进行了TPS损伤容限分析,在防热瓦极限温度约束下,外部热流密度最大值从100kW/m2增加到140kW/m2,矩形损伤宽度最大容许值从22.7mm减小到12.6mm,而弧形损伤宽度最大容许值从34.6mm减小到25.1mm,即随着外部热流密度最大值增加,损伤宽度的最大容许值降低,并且相同外部热流密度水平下弧形损伤宽度的最大容许值大于矩形损伤。     

Rotating machinery fault diagnosis based on convolutional neural network and infrared thermal imaging

Rotating machinery is widely applied in industrial applications. Fault diagnosis of rotating machinery is vital in manufacturing system, which can prevent catastrophic failure and reduce financial losses. Recently, Deep Learning (DL)-based fault diagnosis method becomes a hot topic. Convolutional Neural Network (CNN) is an effective DL method to extract the features of raw data automatically. This paper develops a fault diagnosis method using CNN for InfRared Thermal (IRT) image. First, IRT technique is utilized to capture the IRT images of rotating machinery. Second, the CNN is applied to extract fault features from the IRT images. In the end, the obtained features are fed into the Softmax Regression (SR) classifier for fault pattern identification. The effectiveness of the proposed method is validated using two different experimental data. Results show that the proposed method has a superior performance in identification various faults on rotor and bearings comparing with other deep learning models and traditional vibration-based method.     

基于避障伪距离的自由漂浮空间机器人规划跟踪一体化控制

针对自由漂浮空间机器人(Free Floating Space Robot,FFSR)的避障规划与控制问题，提出一种FFSR的避障规划-跟踪一体化控制方法。首先，基于障碍物伪距离技术，采用FFSR逆几何模型求解期望末端位姿下的连杆伪距离估计值，进而通过求解非线性优化问题，获得FFSR避障期望轨迹。其次，将全局轨迹规划与局部在线避障相结合，辅以离散状态黎卡提方程（DSDRE）控制方法实现FFSR的避障规划-跟踪一体化控制。最后，采用6R空间机器人模型验证了所提方法的有效性。仿真结果表明，该方法能够实现FFSR的避障控制，有效克服了传统FFSR控制中末端轨迹规划与控制相分离的问题，提高了FFSR的环境适应性。     

Ka波段机载双模式干涉SAR系统设计及测量精度分析

为解决传统干涉合成孔径雷达(SAR)系统只能顺轨干涉或交轨干涉,无法兼顾高精度高程测量和速度测量的问题,开展了Ka波段机载双模式干涉SAR系统设计与干涉测量精度分析。基于Ka波段电磁波波长短、干涉相位敏感度好的特点,利用较短的干涉基线在同一干涉SAR系统中实现高精度干涉测高与测速,并介绍了所设计的Ka波段机载双模式干涉SAR验证系统。仿真结果表明:该系统具备高效率、高精度干涉测量能力,可获得亚米级的绝对测高精度和0.1 m/s的测速精度。