车体姿态仿真的一种算法

车辆姿态仿真是自行高炮仿真中的一个重要环节。该文给出了车辆姿态仿真的一种新算法,该算法采取了一系列措施,在基本上不降低仿真精度的情况下,使仿真时间大大减少。     

Improved bounds for batch scheduling with nonidentical job sizes

Here, we revisit the bounded batch scheduling problem with nonidentical job sizes on single and parallel identical machines, with the objective of minimizing the makespan. For the single machine case, we present an algorithm which calls an online algorithm (chosen arbitrarily) for the one‐dimensional bin‐packing problem as a sub‐procedure, and prove that its worst‐case ratio is the same as the absolute performance ratio of . Hence, there exists an algorithm with worst‐case ratio , which is better than any known upper bound on this problem. For the parallel machines case, we prove that there does not exist any polynomial‐time algorithm with worst‐case ratio smaller than 2 unless P = NP, even if all jobs have unit processing time. Then we present an algorithm with worst‐case ratio arbitrarily close to 2. © 2014 Wiley Periodicals, Inc. Naval Research Logistics 61: 351–358, 2014     

坦克火控系统的自适应滤波与自适应解命中

在非制导火控系统中,为实现目标信息的自适应滤波与自适应解命中问题,机动目标模型应能动态识别,又要适应工作周期的各种变化.本文提出的“参数辨识模型”能同时满足上述要求,并可将自适应滤波纳入到现代控制理论的正常思路内予以解决.     

基于输入匹配的直接自适应广义预测控制

提出了一种基于输入匹配的直接自适应广义预测控制器;分析证明了确定性系统和随机系统广义预测自适应控制算法的全局稳定性和收敛性。唯一的关键假设是参数已知时广义预测控制导致闭环系统稳定,去掉了正实条件的限制。     

基于改进型粒子群算法的航空多项目调度方法

多项目并举状况下的资源有限-工期最短问题求解,是提高航空企业资源利用率、缩短项目周期的关键。在项目网络计划的基础上,提出了一种改进型粒子群算法对多项目实施并行资源调度,求解多项目最优资源调度方案。该方法通过改进的交叉和变异操作,提高了解的多样性,保证了算法的全局搜索能力。最后,通过对某型飞机的2个并行装配计划进行实例计算,验证了方法的有效性。     

定位导航系统对通信能力的需求分析

分析了定位导航信息的几种分发模式,以旅级规模的战术互联网为背景,研究了定位导航信息分发模型,对几种分发模式下不同类型节点的信息流量进行了定量的分析,最后给出了几点结论和需要进一步研究的问题.     

关联规则挖掘在发动机故障分析中的应用

大部分关联规则挖掘算法仅以出现频率作为阈值来产生关联规则,然而在发动机故障数据分析领域,很多关键故障的出现机率较低,采用传统的挖掘算法无法适应航空发动机故障分析的需要.提出一种新算法,称为权重式多重支持度关联规则挖掘算法,此算法可针对不同重要度的故障定出不同的支持度阈值,由此产生的关联规则,可以解决高重要度但出现较少的故障不易被挖掘的问题.     

改进Dijkstra算法在雷达突防中的应用

飞行器雷达突防是现代战争中自我保护的重要手段.综合考虑了雷达威胁和航程的影响,建立了关于雷达威胁模型和航程的代价函数.针对传统的Dijkstra算法搜索空间大,搜索效率低的问题,进行了改进,并考虑飞行器的偏航角约束,提出了基于栅格的Dijkstra算法.对简单雷达突防和复杂雷达突防进行了仿真验证.仿真结果表明:该算法不仅能较好地回避雷达威胁,而且较好地提高了搜索速度.     

Clustered coverage orienteering problem of unmanned surface vehicles for water sampling

This study investigates a clustered coverage orienteering problem (CCOP), which is a generalization of the classical orienteering problem. The problem is widely motivated by the emerging unmanned techniques (eg, unmanned surface vehicles and drones) applied to environmental monitoring. Specifically, the unmanned surface vehicles (USVs) are used to monitor reservoir water quality by collecting samples. In the CCOP, the water sampling sites (ie, the nodes) are grouped into clusters, and a minimum number of nodes must be visited in each cluster. With each node representing a certain coverage area of the water, the objective of the CCOP is to monitor as much as possible the total coverage area in one tour of the USV, considering that overlapping areas provide no additional information. An integer programming model is first formulated through a linearization procedure that captures the overlapping feature. A two-stage exact algorithm is proposed to obtain an optimal solution to the problem. The efficiency and effectiveness of the two-stage exact algorithm are demonstrated through experiments on randomly generated instances. The algorithm can effectively solve instances with up to 60 sampling sites.     

光纤陀螺惯性导航算法及其仿真

针对角速率和比力输入时的惯性导航算法进行了深入的研究。对高动态环境下的不同的姿态更新算法进行了对比研究,提出了一种新的速度和位置更新中的转动补偿算法,它将低动态和高动态(划船效应和涡卷效应)转动效应合二为一进行修正。并对系统算法进行了计算机仿真研究,最后给出了仿真结果。