联合卡尔曼滤波在无人机组合导航中的应用

提出了一种适合某型无人机GPS/Radio/DR组合导航的联合卡尔曼滤波方案.利用残差χ2故障检验法,在故障分析的基础上,设计了一种信息分配和故障处理方法.针对某型无人机结构和飞行特点,建立了包含位置信息的直接法卡尔曼滤波模型.经过仿真试验,验证了该方法的可行性.     

Autonomous Navigation for the Deep Impact Mission Encounter with Comet Tempel 1

The engineering goal of the Deep Impact mission is to impact comet Tempel 1 on July 4, 2005, with a 370 kg active Impactor spacecraft (s/c). The impact velocity will be just over 10 km/s and is expected to excavate a crater approximately 20 m deep and 100 m wide. The Impactor s/c will be delivered to the vicinity of Tempel 1 by the Flyby s/c, which is also the key observing platform for the event. Following Impactor release, the Flyby will change course to pass the nucleus at an altitude of 500 km and at the same time slow down in order to allow approximately 800 s of observation of the impact event, ejecta plume expansion, and crater formation. Deep Impact will use the autonomous optical navigation (AutoNav) software system to guide the Impactor s/c to intercept the nucleus of Tempel 1 at a location that is illuminated and viewable from the Flyby. The Flyby s/c uses identical software to determine its comet-relative trajectory and provide the attitude determination and control system (ADCS) with the relative position information necessary to point the High Resolution Imager (HRI) and Medium Resolution Imager (MRI) instruments at the impact site during the encounter. This paper describes the Impactor s/c autonomous targeting design and the Flyby s/c autonomous tracking design, including image processing and navigation (trajectory estimation and maneuver computation). We also discuss the analysis that led to the current design, the expected system performance as compared to the key mission requirements and the sensitivity to various s/c subsystems and Tempel 1 environmental factors.     

双星定位系统/SINS深组合导航系统研究

以卫星模拟器为基础，介绍了一种双星定位系统定姿的基本原理，解决了双星定位系统存在的位置滞后即定位实时性较差的缺陷，把双星定位系统的位置与姿态信息和捷联惯导系统的位置、姿态信息进行组合后，可有效地提高系统的精度．     

惯性辅助的北斗导航故障自适应方法研究

北斗导航系统完好性是指北斗导航系统不能用于导航服务或导航精度超出给定范围时,具备及时发现故障并通知用户的能力.针对北斗导航完好性检测问题,为改善北斗导航定位系统的精度、连续性、完好性和可用性,研究了基于惯性辅助的北斗导航故障检测方法,设计了北斗导航系统的量测修正与故障检测实现方案,构建了基于新息正交性的自适应滤波北斗/SINS紧组合导航架构,根据滑动窗口内新息动态变化特性修正系统量测噪声方差,在北斗导航信号受到较大干扰、发生异常的情况下,对品质较差的卫星测量信号进行识别,并对检测超出一定阈值的突变卫星信号实现故障隔离,从而提高系统适应能力,增强北斗/SINS紧组合导航系统容错性.构建了北斗/SINS组合导航系统仿真验证模型,结果表明,基于惯性辅助的北斗导航方法能够有效检测出卫星信号故障,提高了系统的适应性和定位精度.     

航空长航时惯导系统定位精度评估方法研究

为了寻找合适的评估飞行试验中导航定位精度的方法,采用全球定位系统(GPS)作为基准,以两种不同的计算方法对长航时导航数据进行了统计计算,研究了两种方法的适用性.结果表明,在不同的导航时间范围内选取不同的计算方法,得到的结论才能够被用户和研制方接受.     

Cubature Kalman filter with closed-loop covariance feedback control for integrated INS/GNSS navigation

Cubature Kalman Filter (CKF) offers a promising solution to handle the data fusion of integrated nonlinear INS/GNSS (Inertial Navigation System/Global Navigation Satellite System) navigation. However, its accuracy is degraded by inaccurate kinematic noise statistics which originate from disturbances of system dynamics. This paper develops a method of closed-loop feedback covariance control to address the above problem of CKF. In this method, the posterior state and its covariance are fed back to the filtering process to constitute a closed-loop structure for CKF covariance propagation. Subsequently, based on the maximum likelihood principle, a control scheme of the prior state covariance is established by using the feedback state and covariance within an estimation window and further adopting a proportional coefficient to amplify the feedback terms in recent time steps for the full use of new information to reflect actual system characteristics. Since it does not directly use kinematic noise covariance, the proposed method can effectively avoid the adverse impact of inaccurate kinematic noise statistics on filtering solutions. Further, it can also guarantee the prior state covariance to be positive semi-definite without involving extra measures. The efficacy of the proposed method is validated by simulations and experiments for integrated INS/GNSS navigation.     

一种合作式定位导航系统

介绍一种区域性的主动式定位导航系统及该系统的原理 ,提出系统时系、布站个数、定位解算算法等关键技术的解决方案 ,并预算系统的定位误差。此误差满足一般定位要求     

惯性导航系统/双星距离差组合导航算法的可行性研究

研究由相对于双星的距离差量测与惯性测量系统构成实时的适用于跟踪高动态目标的组合导航系统的可行性。阐述系统工作原理 ,建立了相关的数学模型 ,用拉格朗日乘子法求出了解析解 ,用 Matlab软件验证其结果并作了误差分析。结果表明 :相对于双星的测距差对于惯性测量系统沿双星连线轴向的测量误差算法有十分明显的修正效果 ,但对与双星连线轴正交方向的测量误差 ,其修正能力很差。指出距离差量测本质上是与双星连线轴向相关的一维量测。欲构成对惯性测量三维方向均有修正作用的实时组合导航系统 ,应当在系统中另增加独立的量测量。     

激光陀螺在中、远程防空导弹上的应用

分析了激光陀螺的工作原理，介绍了激光陀螺的性能特点，提出激光陀螺具有传统的机电陀螺和其他类型陀螺所无法比拟的优点，其性能特征完全满足捷联惯导对惯性测量元件的要求，军事应用前景十分广阔，同时，对激光陀螺在新一代防空导弹上的应用作了展望。     

一种攻击大机动目标的组合导引律

在分析经典导引律和现代导引律内在联系的基础上,利用有限可获的制导信息,提出了一种新的组合导引律,由比例项和前置角项组成,力图综合经典导引律和现代导引律的优点,结构简单,易于工程实现,并在基于目标大机动规避的假设下给出了机理解释;通过仿真验证,此方法具有末段弹道平直的优点。