坦克直瞄/间瞄射击一体化火控技术

直瞄射击方式是目前坦克采用的主要射击方式。直瞄射击方式受战场通视度及瞄准装置视距的影响,最大射击距离一般在5 km左右。间瞄射击方式不需要直接瞄准目标,不受战场通视度的影响,最大射击距离主要取决于火炮及弹药的性能,一般在10 km以上。未来坦克应具备直瞄射击与间瞄射击一体化能力。通过直瞄/间瞄射击火控技术的对比与分析,提出坦克直瞄/间瞄射击一体化火控方案。一体化火控具有新的技术特色,具有更强的综合作战能力,是未来坦克火控技术发展的一种趋势。     

SVM在空中目标威胁值评估中的应用

构建了基于回归型支持向量机的空中目标威胁值评估模型,确定了基于粗糙集理论的空中目标威胁因素,并建立了数据离散化、归一化的标准。将常用的4种核函数应用于对空中目标威胁值的估计,并通过基于网格法和遗传算法的搜索方法找到模型的最优参数。最后通过Matlab对算例进行了仿真验证。     

装备技术体系结构演化和超网络建模

装备技术体系结构演化模型是把握装备技术发展规律和制定发展战略的基础。文章系统梳理装备技术发展的体系特征,深入分析了其体系演化动力、要素和过程,将演化实体与关系抽象为超网络的节点和边,可以给前沿技术探测和装备技术体系评估提供新思路。     

简谐外磁场环境下J-C模型的热力学纠缠

以简谐外磁场环境下的J-C模型为研究对象,从系统的哈密顿矩阵出发,通过计算模拟得出热力学纠缠度解析表达式。计算结果表明,对应于不同的外磁场强度,系统热力学纠缠度呈周期性余弦变化,但随环境温度升高快速衰减;在相同环境温度下,系统热力学纠缠度关于磁场强度左右不对称变化。     

水顶油顺序输送油水混合模型研究

顺序输送是利用一条管道输送多种油品,因其可最大限度发挥管道输送潜能而被广泛应用。按照前后行液体不同可分为水顶油、油顶水和不同油品间顺序输送等,其中水顶油顺序输送主要用于管道撤收前的排空作业。对水顶油顺序输送油水混合过程进行了分析,建立了油水混合模型,利用CFD对其进行数值求解,并将仿真结果与前期理论分析进行了对比,两者吻合较好。所得结论可为机动管线水顶油排空作业提供科学指导。     

飞行器试验多测控目标发射零点应急处理方法

飞行器飞行试验任务中,发射零点T0是整个测控系统启动运行的基准点,是保证测控系统有条不紊正常工作的关键因素。特别是执行多个测控目标连射飞行试验任务,多个发射零点的正确处理更是关乎试验任务的成败。在分析发射零点形成机制基础上,对发射零点在指控系统实时测控软件中的处理方法进行了研究,提出了一种实时测控软件重启后重新获得多测控目标正确发射零点的应急处理方法,解决了试验过程中一旦实时测控软件因重大软件故障导致初始发射零点丢失的问题,保障了试验任务的顺利进行。     

一种舰载多武器火力兼容优先级控制模型和方法

分析了美海军先进驱逐舰的武器配置,给出了舰载两两武器间动态火力散布体交叉的时空模型,提出了一种舰载多武器火力兼容优先级控制数学模型,并给出计算实例。     

Single batch machine scheduling with deliveries

We consider the problem of scheduling a set of n jobs on a single batch machine, where several jobs can be processed simultaneously. Each job j has a processing time p_j and a size s_j. All jobs are available for processing at time 0. The batch machine has a capacity D. Several jobs can be batched together and processed simultaneously, provided that the total size of the jobs in the batch does not exceed D. The processing time of a batch is the largest processing time among all jobs in the batch. There is a single vehicle available for delivery of the finished products to the customer, and the vehicle has capacity K. We assume that K = rD, where and r is an integer. The travel time of the vehicle is T; that is, T is the time from the manufacturer to the customer. Our goal is to find a schedule of the jobs and a delivery plan so that the service span is minimized, where the service span is the time that the last job is delivered to the customer. We show that if the jobs have identical sizes, then we can find a schedule and delivery plan in time such that the service span is minimum. If the jobs have identical processing times, then we can find a schedule and delivery plan in time such that the service span is asymptotically at most 11/9 times the optimal service span. When the jobs have arbitrary processing times and arbitrary sizes, then we can find a schedule and delivery plan in time such that the service span is asymptotically at most twice the optimal service span. We also derive upper bounds of the absolute worst‐case ratios in both cases. © 2015 Wiley Periodicals, Inc. Naval Research Logistics 62: 470–482, 2015     

Model parameter estimation and residual life prediction for a partially observable failing system

We consider a partially observable degrading system subject to condition monitoring and random failure. The system's condition is categorized into one of three states: a healthy state, a warning state, and a failure state. Only the failure state is observable. While the system is operational, vector data that is stochastically related to the system state is obtained through condition monitoring at regular sampling epochs. The state process evolution follows a hidden semi‐Markov model (HSMM) and Erlang distribution is used for modeling the system's sojourn time in each of its operational states. The Expectation‐maximization (EM) algorithm is applied to estimate the state and observation parameters of the HSMM. Explicit formulas for several important quantities for the system residual life estimation such as the conditional reliability function and the mean residual life are derived in terms of the posterior probability that the system is in the warning state. Numerical examples are presented to demonstrate the applicability of the estimation procedure and failure prediction method. A comparison results with hidden Markov modeling are provided to illustrate the effectiveness of the proposed model. © 2015 Wiley Periodicals, Inc. Naval Research Logistics 62: 190–205, 2015     

A sequential scheduling problem with impatient jobs

There are n customers that need to be served. Customer i will only wait in queue for an exponentially distributed time with rate λ_i before departing the system. The service time of customer i has distribution F_i, and on completion of service of customer i a positive reward r_i is earned. There is a single server and the problem is to choose, after each service completion, which currently in queue customer to serve next so as to maximize the expected total return. © 2015 Wiley Periodicals, Inc. Naval Research Logistics 62: 659–663, 2015