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261.
基于二人有限零和对策的防空兵火力分配方法 总被引:1,自引:0,他引:1
为了优化防空作战过程中火力分配问题,使射击达到最佳效果,运用对策论、线性规划等理论方法,采用对策矩阵建立了防空火力分配的线性规划模型,并通过计算示例和计算机仿真初步预测了敌方的空袭兵器使用情况和我方相应的兵力分配对策。该模型建立的防空火力分配方法较好地满足了要地防空装备的战术应用问题,对提高作战效能具有一定的参考价值。 相似文献
262.
协同设计目前已经成为解决复杂产品设计问题的关键技术之一.在分析了现有协同设计问题的基础上,提出通过构建虚拟PDM(VPDM,Virtual PDM),应用交换特征增长数据的方法,来解决企业间异构PDM、CAD应用系统的协同设计问题.给出了虚拟PDM的定义,并介绍了基于虚拟PDM进行协同设计的基本原理.建立了基于虚拟PD... 相似文献
263.
徐盟菊 《中国人民武装警察部队学院学报》2011,(6):59-61
针对贵州省商贸城商业用房的消防安全管理工作现状的分析,提出以"防火墙"工作建设为契机,加大对商贸城商业用房的消防安全管理力度,使此项重而难的工作逐步走向良好轨道,避免出现重大火灾事故,为构建和谐社会奠定良好基础。 相似文献
264.
为解决遮挡条件下的目标跟踪问题,提高定位精度,提出一种基于两级隐式形状模型的目标跟踪算法。首先利用Fast Hessian检测子提取待跟踪目标及周围区域的局部关键点区域构建码本字典,用SURF描述子获取码本的特征描述矢量建立码本支持模型,然后利用广义Hough变换建立码本字典集与目标之间的共生关系,通过隐式形状模型进行在线学习更新,最后通过寻找投票空间中的极大值来对目标进行定位,根据跟踪过程中目标遮挡程度的不同,分别赋予目标自身码本投票及周围码本投票不同权重,提高不同遮挡状态下目标定位精度。实验结果表明,在目标被遮挡甚至不可见或者丢失后重新回到视场时,该算法均能鲁棒地定位出目标。 相似文献
265.
This article presents a flexible days‐on and days‐off scheduling problem and develops an exact branch and price (B&P) algorithm to find solutions. The main objective is to minimize the size of the total workforce required to cover time‐varying demand over a planning horizon that may extend up to 12 weeks. A new aspect of the problem is the general restriction that the number of consecutive days on and the number of consecutive days off must each fall within a predefined range. Moreover, the total assignment of working days in the planning horizon cannot exceed some maximum value. In the B&P framework, the master problem is stated as a set covering‐type problem whose columns are generated iteratively by solving one of three different subproblems. The first is an implicit model, the second is a resource constrained shortest path problem, and the third is a dynamic program. Computational experiments using both real‐word and randomly generated data show that workforce reductions up to 66% are possible with highly flexible days‐on and days‐off patterns. When evaluating the performance of the three subproblems, it was found that each yielded equivalent solutions but the dynamic program proved to be significantly more efficient. © 2013 Wiley Periodicals, Inc. Naval Research Logistics 60: 678–701, 2013 相似文献
266.
We study a knapsack problem with an additional minimum filling constraint, such that the total weight of selected items cannot be less than a given threshold. The problem has several applications in shipping, e‐commerce, and transportation service procurement. When the threshold equals the knapsack capacity, even finding a feasible solution to the problem is NP‐hard. Therefore, we consider the case when the ratio α of threshold to capacity is less than 1. For this case, we develop an approximation scheme that returns a feasible solution with a total profit not less than (1 ‐ ε) times the total profit of an optimal solution for any ε > 0, and with a running time polynomial in the number of items, 1/ε, and 1/(1‐α). © 2012 Wiley Periodicals, Inc. Naval Research Logistics, 2013 相似文献
267.
268.
本文对瓶颈指派问题给出了一种新的算法,该算法不需要利用最大流算法,而类似于解经典指派问题的匈牙利算法。该算法是一个多项式时间算法,其复杂性为O(n3) 相似文献
269.
本文描述了机器人路径规划的一种新方法:基于转移费用矩阵的机器人路径规划方法。通过定义转移费用矩阵的概念及其上的二元运算,将最优路径的生成,转化为矩阵的运算,使得有限步的矩阵运算,即可得到环境中所有点间的最优路径,达到了在预处理阶段构造最优路径集的目的。最后,介绍了该方法在移动机器人任务规划中的应用 相似文献
270.
Testing provides essential information for managing infectious disease outbreaks, such as the COVID-19 pandemic. When testing resources are scarce, an important managerial decision is who to test. This decision is compounded by the fact that potential testing subjects are heterogeneous in multiple dimensions that are important to consider, including their likelihood of being disease-positive, and how much potential harm would be averted through testing and the subsequent interventions. To increase testing coverage, pooled testing can be utilized, but this comes at a cost of increased false-negatives when the test is imperfect. Then, the decision problem is to partition the heterogeneous testing population into three mutually exclusive sets: those to be individually tested, those to be pool tested, and those not to be tested. Additionally, the subjects to be pool tested must be further partitioned into testing pools, potentially containing different numbers of subjects. The objectives include the minimization of harm (through detection and mitigation) or maximization of testing coverage. We develop data-driven optimization models and algorithms to design pooled testing strategies, and show, via a COVID-19 contact tracing case study, that the proposed testing strategies can substantially outperform the current practice used for COVID-19 contact tracing (individually testing those contacts with symptoms). Our results demonstrate the substantial benefits of optimizing the testing design, while considering the multiple dimensions of population heterogeneity and the limited testing capacity. 相似文献