基于振动时滞法的非零叶间相位角叶片颤振

发展了一种利用叶片延迟振动设置叶间相位角的振动时滞法和多通道叶片非同相振动的流固耦合颤振分析模型。模型通道数选取相邻节径线之间通道数的两倍,在循环扇区的不同通道中,令叶片的各阶振动模态位移滞后于前一叶片,结合基于虚拟弹性体的快速动网格算法实现流场及叶片网格的高效更新。针对Rotor 37多通道模型,研究了不同叶间相位角对叶片气弹稳定性及通道流场特性的影响。结果表明:多通道方法与全环叶片颤振分析的计算结果基本一致,而18节径振动下多通道方法的计算时间是全环分析的1486%;节径振动形式对气动阻尼有显著影响,且在2节径时发生气弹失稳;叶间相位角引起流道内激波位置和强度变化和非定常激波脉动异相冲击,是影响颤振的主要原因。     

多工况载荷下航空发动机支架拓扑优化设计

将基于变密度法的拓扑优化技术引入到航空发动机外部支撑结构(例如附件支架)设计中,以多工况下的总柔度为目标函数,以体积为约束函数对某发动机支架进行基于拓扑优化的结构设计。根据发动机机匣与附件的相对位置关系建立支架初始模型,开展发动机外部支架结构受力分析研究,建立了基于多工况载荷下拓扑优化和考虑强度影响的尺寸优化相结合的发动机外部支撑结构设计方法,并对最终支架结构进行强度、振动、外廓性校核评估。结果表明：最终模型最大应力出现在工况3情况下,最大主应力为345 MPa低于材料疲劳极限;支架的第1阶固有频率在发动机最高转速频率的125倍以上。采用该方法对某发动机外部支撑结构进行拓扑优化设计,在满足强度、振动和外廓要求的前提下,最终模型质量仅为初始模型的73%。基于多工况的优化结果更符合发动机实际工作需求,该方法研究具有工程应用前景。     

基于气压高度辅助的机载自主完好性监测算法

卫星接收机自主完好性监测是指根据用户接收机的多余观测值监测用户定位结果的完好性,其目的是在导航过程中检测出发生故障的卫星,并保障导航定位精度。针对卫星接收机自主完好性监测算法可用性不足的问题,结合机载实际导航系统配置,提出了一种基于气压高度表辅助的机载自主完好性监测算法。综合利用卫星导航系统及气压高度表观测信息,建立联合系统的观测模型,推导了基于多解分离的完好性监测及保护级别计算方法。仿真结果表明,相比于传统的接收机自主完好性监测算法,该算法在可见星为5颗时仍能识别故障卫星。该算法具有更好的故障检测能力及可用性,能有效提高卫星导航系统的完好性监测性能,从而保证卫星导航系统的精度和可靠性。     

基于信任值的P2P网络访问控制模型

对等网络（P2P）已成为一个非常受欢迎的信息交流的新模式。然而,P2P网络环境的分散的和匿名的特点使得对共享信息的控制变得更加困难,而这是无法通过传统的访问控制方法完成的。首先提出P2P网络环境中的访问控制需求,然后提出了一种基于信任值的P2P网络的访问控制模型。模型整合了信任和推荐模式、公平参与原则和访问控制模式,并将其应用于P2P文件共享系统。仿真分析表明,访问控制模型能够有效识别恶意节点,使P2P网络中合作节点具有较高的成功请求率。     

指数分布基于多重定数截尾样本中异常数据的检验

讨论多重定数截尾指数型寿命数据,对同时存在异常大数据和异常小数据的情形给出了检验方法,得到了检验异常数据的判别标准,最后以一实例说明其应用.     

Reconfigurable Flight Control Design for Combat Flying Wing with Multiple Control Surfaces

With control using redundant multiple control surface arrangement and large-deflection drag rudders,a combat flying wing has a higher probability for control surface failures.Therefore,its flight control system must be able to reconfigure after such failures.Considering three types of typical control surface failures(lock-in-place(LIP),loss-of-effectiveness(LOE) and float),flight control reconfiguration characteristic and capability of such aircraft types are analyzed.Because of the control surface redundancy,the aircraft using the dynamic inversion flight control law already has a control allocation block.In this paper,its flight control configuration during the above failures is achieved by modifying this block.It is shown that such a reconfigurable flight control design is valid,through numerical simulations of flight attitude control task.Results indicate that,in the circumstances of control surface failures with limited degree and the degradation of the flying quality level,a combat flying wing adopting this flight control reconfiguration approach based on control allocation could guarantee its flight safety and perform some flight combat missions.     

Reliable flight performance assessment of multirotor based on interacting multiple model particle filter and health degree

Multirotor has been applied to many military and civilian mission scenarios. From the perspective of reliability, it is difficult to ensure that multirotors do not generate hardware and software failures or performance anomalies during the flight process. These failures and anomalies may result in mission interruptions, crashes, and even threats to the lives and property of human beings. Thus, the study of flight reliability problems of multirotors is conductive to the development of the drone industry and has theoretical significance and engineering value. This paper proposes a reliable flight performance assessment method of multirotors based on an Interacting Multiple Model Particle Filter (IMMPF) algorithm and health degree as the performance indicator. First, the multirotor is modeled by the Stochastic Hybrid System (SHS) model, and the problem of reliable flight performance assessment is formulated. In order to solve the problem, the IMMPF algorithm is presented to estimate the real-time probability distribution of hybrid state of the established SHS-based multirotor model, since it can decrease estimation errors compared with the standard interacting multiple model algorithm based on extended Kalman filter. Then, the reliable flight performance is assessed with health degree based on the estimation result. Finally, a case study of a multirotor suffering from sensor anomalies is presented to validate the effectiveness of the proposed method.     

嵌入式多核操作系统确定性研究

为解决嵌入式多核操作系统确定性问题,详细阐述了计算确定性,重点分析了多核结构引入的不确定性问题。通过研究嵌入式多核操作系统的结构,从共享存储的确定性访问、确定性任务调度、确定性通信等方面提出了解决多核结构带来的不确定性问题的方法。     

无控武器对地攻击精度分析

针对目前无控武器对地攻击精度影响因素来源单一,分析影响精度的多种误差源。建立直升机无控武器命中精度分析模型,针对平飞方式下的无控武器命中精度问题,采用蒙特卡洛法多次仿真。针对命中精度与各个误差源的关系方程,提出采用多元线性回归法对仿真结果进行分析,给出误差源对命中精度的影响程度。对关系方程和误差影响程度进行显著性检验,使其更加准确、可信。     

主/从动式组合旋翼悬停状态气动特性分析

针对传统直升机构型中主旋翼旋转时产生的扭矩需要尾翼或是反向旋转的共轴旋翼加以抵消,从而造成能量浪费的问题,以将主旋翼旋转时产生的扭矩转化为升力为出发点,提出了一种主旋翼带动下方无动力旋翼旋转的主/从动式组合旋翼气动布局构型。通过动量叶素理论以及CFD数值模拟中的多重参考系法,对主/从动式组合旋翼悬停状态的气动特性进行了初步分析,结果表明,此构型中的下方从动旋翼利用上方主动旋翼的扭矩产生了额外10%的升力,同时下方从动旋翼在上方主动旋翼引流的有利干扰下升力系数提高了35%。