基于目标战略优先级与精度自适应的效能函数的机载多传感器管理

传感器管理在数据融合系统中起着重要作用,机载多传感器系统通常面临着资源受限的状况,如传感器最大跟踪数量小于目标数量,无法保证所有传感器拥有相同精度与参照系等。因此,本文提出了一种基于目标战略优先级与精度自适应的效能函数的多传感器管理算法。首先,将空中目标的自身属性部分量化以得到目标战略优先级;再利用目标的跟踪精度、传感器测量精度和期望的跟踪精度之间的关系,定义了精度预提升矩阵和精度缺乏矩阵。再将上述两部分结合构建目标函数,运用整数线性规划的方法进行优化。最后,仿真试验设置了包括三个机载传感器对4个目标的跟踪任务,对比其他文献中的结果,显示出本文算法更为合理、有效。     

基于传感器协同技术的雷达搜索空域研究

多传感器协同是当代先进战斗机的重要技术特征.利用数据链、电子战系统、红外搜索跟踪系统提供的目标信息引导雷达对指定空域进行小范围搜索,可以增加雷达波束目标驻留时间,提高雷达探测距离.本文给出了在外部目标信息引导下雷达搜索空域确定方法,对各种传感器的引导精度进行了分析,确定了雷达相应的搜索空域.     

基于决策不确定性的多目标跟踪传感器管理

针对高杂波、电子干扰环境,在量测驱动的多目标滤波框架下提出了一种基于决策不确定性的传感器管理方法。首先,根据部分可观测马尔科夫决策过程的理论,给出了基于Rényi信息增量的传感器管理一般方法。其次,综合考虑决策过程的信息完整性、信息质量、信息的内涵等因素,在量测驱动的自适应滤波框架下,基于目标运动态势评估多目标决策不确定性水平,并选取最大决策不确定性目标。最后,以最大决策不确定性目标的信息增量最大化为准则进行传感器分配方案的求解。仿真实验表明所提方法能够有效抑制电子干扰、杂波对多目标跟踪及传感器分配的影响,与基于威胁的传感器管理方法相比,所提方法的平均最优子模式分配（OSPA）距离及平均计算时长均显著降低,且在高杂波、电子干扰情形下具有较高的可靠性。     

多约束条件下的制导律研究综述

随着导弹等制导武器机动能力的增强,制导精度的提高,多约束条件下的制导律研究成为精确制导研究的新热点。简要介绍了多约束条件下的制导问题,重点评述了近年来多约束条件下的制导律研究情况,对目前多约束条件下的制导律设计进行了比较详细的研究,系统分析了各种方法的优缺点,并分析了其可能的研究内容动态和方向,为精确制导技术的发展提供了参考和借鉴。     

液体火箭发动机基于主要目标的减损与延寿控制方法

首先通过构造目标函数、提取约束条件与问题解的分析,对液体火箭发动机减损与延寿控制技术的优化问题进行了数学描述,然后以某大型液氧/煤油火箭发动机为对象,考虑其涡轮叶片为关键部件,研究了发动机起动过程减损控制律综合分析的主要目标法,并在不同的约束条件下,对实现不同意义下的减损控制进行了仿真计算.结果表明该方法可行且有效,能够有效实现系统性能与关键部件损伤间的权衡并实现预期的减损目标,结果为工程中液体火箭发动机的改进和优化设计提供了重要的参考价值.      

多传感器目标检测的性能评估（二）

（接上期）2多传感器目标检测的性能评估前面，我们对于单传感器目标检测情形建立了基于几何直观的单一评价指标，这种单一评价指标是单传感器检测率和虚警率的综合反映。对于多传感器目标检测情形，我们可以依据多传感器目标检测的系统检测率和系统虚警率将（5）式予以推广，建立多传感器目标检测的单一评价指标。为此，只需深入讨论多传感器目标检测情形下的系统检测率和系统虚警车。2．1系统检测率和系统虚警率容易证明，已有的各种多传感器目标检测模型实际上都等价于某个（K／N）规则。令R（U）表示融合中心基于传感器级决策的全局决…     

航天器多约束交会的仅测角导航最优多目标闭环制导

研究了航天器多约束交会的仅测角导航最优多目标闭环制导问题，优化目标包括交会时间、燃耗和仅测角导航可观性指标，并考虑了视觉传感器视场角、推力器推力幅度和最小安全距离等各种约束条件，建立了多约束、多目标优化下的仅测角导航和闭环制导问题的数学模型，分析了仅测角导航和闭环制导之间的耦合关系。最后，通过Matlab遗传算法工具箱中的多目标优化函数,求解得到了该多目标优化模型的Pareto最优解集，结果显示交会时间、燃耗和仅测角导航可观性指标不能同时达到最优，存在相互制约关系，即提高其中一种优化目标的性能会降低其他优化目标的性能。     

智能化多传感器管理系统的设计和仿真

根据机载多传感器管理需求,提出了基于机载多传感器数据融合技术的智能化多传感器管理系统体系结构,并阐述了该系统的功能、系统设计原则和方法。采用商用货价产品技术(COTS)构建原型仿真平台,对提出的多传感器管理系统体系结构进行原型仿真,验证了该设计的有效性。     

基于多传感器的机动目标跟踪与融合技术综述

在分析了目标跟踪技术的重要地位之后，对目标跟踪要素进行了简要介绍。同时，描述了机动目标建模、滤波算法、航迹管理、传感器管理以及目标身份识别技术常用的方法，试图对基于多传感器的机动目标跟踪和识别算法构建一个轮廓和框架。     

低轨星座传感器调度方法

针对低轨星座传感器调度问题,首先分析了影响传感器调度的因素,其次定义了传感器与目标的配对效能,以系统的总配对效能最大化为优化目标,建立了多目标传感器调度的模型。典型场景下仿真实验验证了该方法在性能上的优势。     

STUDY ON ALGORITHM OF SENSOR MANAGEMENT BASED ON FUNCTIONS OF EFFICIENCY AND WASTE

The sensor management system is a subsys-tem of a multisensor data fusion system,and itspurpose is to satisfy requests of multitarget andscanned space by using the limited sensor resourcesin order to gain optimal measurement values of allspecified characteristics ( detection and captureprobability,emission power of sensor,trackingprecision or target losing probability and so on) .By the optimal principle listed above,sensor re-sources are distributed in science and reason.In aword,itis a key p…     

Multisensor resource deployment using posterior Cramer-Rao bounds

The development of a general framework for the systematic management of multiple sensors in target tracking in the presence of clutter is described. The basis of the technique is to quantify, and subsequently control, the accuracy of target state estimation. The posterior Cramer-Rao lower bound (PCRLB) provides the means of achieving this aim by enabling us to determine a bound on the performance of all unbiased estimators of the unknown target state. The general approach is then to use optimization techniques to control the measurement process in order to achieve accurate target state estimation. We are concerned primarily with the deployment and utilization of limited sensor resources. We also allow for measurement origin uncertainty, with sensor measurements either target-generated or false alarms. An example in which the aim is to track a submarine by deploying a series of constant false-alarm rate passive sonobuoys is presented. We show that by making some standard assumptions, the effect of the measurement origin uncertainty can be expressed as a state-dependent information reduction factor which can be calculated off-line. This enables the Fisher information matrix (FIM) to be calculated quickly, allowing Cramer-Rao bounds to be utilized for real-time, dynamic sensor management. The sensor management framework is shown to determine deployment strategies that enable the target to be accurately localized, and at the same time efficiently utilize the limited sensor resources.     

Covariance control for multisensor systems

As the profusion of different sensors improves the capabilities of tracking platforms, tracking objectives can move from simply trying to achieve the most with a limited sensor suite to developing the ability to achieve more specific tracking goals, such as reducing the uncertainty in a target estimate enough to accurately fire a weapon at a target or to ensure that a mobile robot does not collide with an obstacle. Multisensor manager systems that balance tracking performance with system resources have traditionally been ill-suited for achieving such specific control objectives. This work extends the methods developed in single-sensor management schemes to a multisensor application using an approach known as covariance control, which selects sensor combinations based on the difference between the desired covariance matrix and that of the predicted covariance of each target.     

Bayesian Approach to Extended Object and Cluster Tracking using Random Matrices

In algorithms for tracking and sensor data fusion the targets to be observed are usually considered as point source objects; i.e., compared with the sensor resolution their extension is neglected. Due to the increasing resolution capabilities of modern sensors, however, this assumption is often no longer valid as different scattering centers of an object can cause distinct detections when passing the signal processing chain. Examples of extended targets are found in short-range applications (littoral surveillance, autonomous weapons, or robotics). A collectively moving target group can also be considered as an extended target. This point of view is the more appropriate, the smaller the mutual distances between the individual targets are. Due to the resulting data association and resolution conflicts any attempt of tracking the individual objects within the group seems to be no longer reasonable. With simulated sensor data produced by a partly unresolvable aircraft formation the addressed phenomena are illustrated and an approximate Bayesian solution to the resulting tracking problem is proposed. Ellipsoidal object extensions are modeled by random matrices, which are treated as additional state variables to be estimated or tracked. We expect that the resulting tracking algorithms are also relevant for tracking large, collectively moving target swarms.     

机载计算机网络化和标准化

提高驾驶员对飞行势态觉察,有赖于大量信息的综合利用,以及客舱的信息开放后庞大的数据量要通过机载计算机系统在相当速度下进行处理,机载计算机网络化和标准化是信息资源有效利用的必由之路。新的ARINC规范对飞机数据网络、文档服务器、数据传输总线、可装载软件提出了相应的设计原则和采用手段,并对飞行管理计算机、驾驶舱显示系统等提出新的要求。     

Optimal Cooperative Sensing using a Team of UAVs

The authors investigates the joint optimal estimation of both the position and velocity of a ground moving target (GMT) using pulse Doppler radars on-board unmanned aerial vehicles (UAVs). The problem of cooperative estimation using a UAV team and the optimization of the team's configuration to achieve optimal GMT position and velocity estimates are addressed. Based on the Cramer-Rao bound, the minimum achievable error variance of the GMT position and velocity estimates is derived. The expression of the minimum achievable estimation error variance for unbiased estimation provided by the Cramer-Rao bound is minimized yielding the optimal configuration of the UAV team. Our solution is complete in that it addresses various GMT tracking scenarios and an arbitrary number of UAVs. Optimal sensor geometries for typical applications are illustrated     

Expert Systems in the Fighter of the 1990s

In the Advanced Tactical Fighter (ATF) to be deployed in the 1990s, the role of expert systems will enhance mission success. This paper discusses the utilization of two expert systems for handling multisensor data fusion and situation assessment. In multisensor data fusion, each sensor operates over a different region of the surveillance volume asynchronously and provides different measurements. In some instances, more than one sensor may yield the same measurement but with a different measurement accuracy. In this regard, the paper describes, in layman's terms, a system block diagram for processing the autonomous sensor track files and the possible need for a ``smart' fusion processor. This expert system is shown to manage the sensor outputs in both the temporal and spatial domains to maximize target identification confidence as well as kinematic state vector accuracy. The paper delineates the features needed by the fusion expert in order to assign a quality factor to each composite track file entry. A second expert system uses the output from fusion and other mission-related data to formulate the best picture of the surveillance volume at hand. This second expert system will show how historical data and real-time sensor data are merged for purposes of display parameters to the pilot, weapon cueing, countermeasures response management, and feedback to the fusion expert processor for individual sensor communication and data collection direction. The paper concludes with a tabular summary of the subprocesses of which these two expert systems may consist.     

Multiple model nonlinear filtering for low signal ground target applications

The design and implementation of a multiple model nonlinear filter (MMNLF) for ground target tracking using ground moving target indicator (GMTI) radar measurements is described. Like the well-known interacting multiple model Kalman filter (IMMKF), the MMNLF is based on the theory of hybrid stochastic systems. However, since it models the probability distribution for the target in a region, rather than just the distribution's first and second moments, a nonlinear filter is able to capture more fine-grained detail of the target motion and requires fewer models than typical IMMKF implementations. This is illustrated here with a two-model MMNLF in which one motion model incorporates terrain constraints while the second is a nearly constant velocity (CV) model. Another feature of the MMNLF is that it enables incorporation of prethresholded measurements. To implement the filter, the target state conditional probability density is discretized on a set of moving grids and recursively updated with sensor measurements via Bayes' formula. The conditional density is time updated between sensor measurements using alternating direction implicit (ADI) finite difference methods, generalized for this hybrid application. In simulation testing against low signal-to-interference-plus-noise ratio (SINR) targets, the MMNLF is able to maintain track in situations where single model filters based on either of the component models or filters that use thresholded data fail. Potential applications of this work include detection and tracking of foliage-obscured moving targets.     

基于GIS的军事通信网络传输资源信息管理系统

依据工作中的实践和经验,结合现代技术的发展和成果,在信息系统分析与设计的基础上引入GIS技术,分析了管理信息系统与地理信息系统结合的优势,提出并设计了基于地理信息系统的军事通信网络传榆资源信息管理系统,对具有空间属性特征信息管理系统的设计和开发具有一定的借鉴和参考价值。