导航解算中的有色噪声及其协方差矩阵自适应拟合

使用Kalman滤波进行动态导航定位解算需要涉及函数模型和随机模型, 而在实际应用中, 精确的函数模型和随机模型很难直接给出, 因此, 动态Kalman滤波的精度和可靠性将会受到函数模型误差和随机模型误差的影响. 在假设观测噪声和动力学模型噪声主要是具有一阶自相关特性的有色噪声的基础上, 提出了一种基于移动窗口的有色噪声函数模型和随机模型的自适应拟合法. 给出了计算有色噪声估值和噪声协方差矩阵的表达式, 并利用实测数据验证了模型及算法的可行性和实用性. 计算结果表明, 该算法能有效抵制有色噪声对导航滤波结果的影响.      

膏体推进剂冲压发动机一次燃烧试验

针对额定流量和流量调节条件下膏体冲压发动机一次燃烧组织稳定的要求,提出了一种燃面自适应燃烧组织模式,设计了一次燃烧组织试验系统,进行了一次燃烧组织试验。试验结果表明,推进剂输送稳定,点火时序和推进剂输送时机合理,防回火措施有效,燃烧室压强经过调整后能够稳定在设计值附近。燃面自适应燃烧组织模式可以实现燃面的自适应调节,使推进剂输送和燃烧保持平衡,保证发动机的一次燃烧稳定。     

Removing orbital debris with lasers

Orbital debris in low Earth orbit (LEO) are now sufficiently dense that the use of LEO space is threatened by runaway collision cascading. A problem predicted more than thirty years ago, the threat from debris larger than about 1 cm demands serious attention. A promising proposed solution uses a high power pulsed laser system on the Earth to make plasma jets on the objects, slowing them slightly, and causing them to re-enter and burn up in the atmosphere. In this paper, we reassess this approach in light of recent advances in low-cost, light-weight modular design for large mirrors, calculations of laser-induced orbit changes and in design of repetitive, multi-kilojoules lasers, that build on inertial fusion research. These advances now suggest that laser orbital debris removal (LODR) is the most cost-effective way to mitigate the debris problem. No other solutions have been proposed that address the whole problem of large and small debris. A LODR system will have multiple uses beyond debris removal. International cooperation will be essential for building and operating such a system.     

基于四元数的UKF多传感器卫星姿态确定

对采用磁强计和太阳敏感器的卫星姿态模型,应用无迹卡尔曼滤波(UKF)算法确定卫星姿态。由四元数描述姿态,在算法中将其转换成旋转矢量,另设计了四元数求均值的迭代算法,解决了四元数在UKF算法中的处理。仿真结果表明:广义卡尔曼滤波(EKF)算法对初值依赖性较大,UKF算法不受初值影响且精度高于EKF,具快速性、精度高和稳定性强等优点。     

Adaptive fuzzy terminal sliding mode control for the free-floating space manipulator with free-swinging joint failure

Space manipulator with free-swinging joint failure simultaneously contains kinematic and dynamic coupling relationships, so it belongs to a new underactuated system. To allow the manipulator to carry on tasks, an effective robust underactuated control method for the space manipulator with free-swinging joint failure is studied in this paper. Considering the effect of model uncertainty and joint torque disturbance, a robust underactuated control system based on the Terminal Sliding Mode Controller (TSMC) is designed, but two drawbacks are discussed: (A) Robustness depraves with eliminating chattering. (B) Control parameters are difficult to be determined under unknown uncertainty and disturbance. To improve the TSMC, the adaptive fuzzy controller is introduced to estimate the real effect of unknown uncertainty and disturbance according to deviations of sliding mode and its reaching law. The estimated result is directly compensated into active joints torque. In simulation, the space manipulator with free-swinging joint executes tasks based on the TSMC and the Adaptive Fuzzy Terminal Sliding Mode Controller (AFTSMC) respectively. Same tasks can be finished with smaller joints torque and stronger robustness based on the AFTSMC. Therefore, AFTSMC can serve as an effective robust control method for the space manipulator with free-swinging joint failure under unknown model uncertainty and torque disturbance.     

A two-step robust adaptive filtering algorithm for GNSS kinematic precise point positioning

In kinematic navigation and positioning, abnormal observations and kinematic model disturbances are one of the key factors affecting the stability and reliability of positioning performance. Generally, robust adaptive filtering algorithm is used to reduce the influence of them on positioning results. However, it is difficult to accurately identify and separate the influence of abnormal observations and kinematic model disturbances on positioning results, especially in the application of kinematic Precise Point Positioning (PPP). This has always been a key factor limiting the performance of conventional robust adaptive filtering algorithms. To address this problem, this paper proposes a two-step robust adaptive filtering algorithm, which includes two filtering steps: without considering the kinematic model information, the first step of filtering only detects the abnormal observations. Based on the filtering results of the first step, the second step makes further detection on the kinematic model disturbances and conducts adaptive processing. Theoretical analysis and experiment results indicate that the two-step robust adaptive filtering algorithm can further enhance the robustness of the filtering against the influence of abnormal observations and kinematic model disturbances on the positioning results. Ultimately, improvement of the stability and reliability of kinematic PPP is significant.     

基于递推更新卡尔曼滤波的磁偶极子目标跟踪

针对磁性目标跟踪问题,以磁偶极子等效场源模型为基础,建立磁性目标跟踪的离散状态空间模型,将磁偶极子目标实时跟踪问题转化为状态空间模型的滤波估值问题。针对磁性目标初始条件难以获得且现有卡尔曼类滤波算法在大初始误差条件下容易出现发散的问题,提出一种递推观测更新的卡尔曼滤波算法,将现有的一步观测更新描述为递推更新过程,等效降低大初始误差带来的大非线性误差。仿真与实测数据测试结果表明,本文算法具有良好的精度和收敛性,能够有效抑制磁偶极子跟踪中由于大初始误差导致的滤波发散,适于实际应用。     

基于归一化神经网络的航天器自适应姿态跟踪控制

针对以变速控制力矩陀螺（VSCMGs）为姿态控制执行机构的航天器在同时考虑惯性参数和执行机构不确定性情况下的姿态跟踪控制问题,提出了一种基于归一化神经网络的自适应姿态跟踪控制方法。设计一个非线性反馈控制器作为航天器姿态控制的基本控制器,利用归一化神经网络设计补偿控制器,用以在线估计和消除包含系统不确定参数的未知不确定函数的影响,避免了标准自适应控制方法需要进行大量不确定参数估计的缺陷。采用神经网络输入归一化技术,简化了闭环系统复杂的稳定性分析过程。理论分析证明了闭环系统的稳定性和姿态跟踪误差的收敛性。仿真结果表明,所提出的控制方法能满足航天器在惯性参数和执行机构不确定性及外干扰存在情况下的高精度姿态跟踪控制要求。
     

基于张量分解的动态Web服务推荐

在服务计算领域中,为了能够在大量具有相同功能的Web服务以及API等数据资源中选择适合用户的服务和接口,提出了服务推荐系统。当前常用的基于服务质量（QoS）的服务推荐系统所采用的模型假定服务的QoS值恒定不变,是一种由服务和用户的二元关系构成的二维静态模型。针对实际应用中,QoS是受到多种因素影响的变量这一问题,提出了一种可以描述多个影响QoS因素的张量模型,并利用张量分解算法来对服务推荐算法进行了改进。实验结果表明:提出的基于张量分解的服务推荐算法与6种现有算法相比较,预测服务的QoS值的绝对平均误差（MAE）不同程度地降低了20%~50%,并且所建模型能够描述更多的影响因素,从而可对服务进行动态推荐。