一种改进遗传算法在UCAV快速航迹规划中的应用

针对无人作战飞机(Unmanned Combat Aerial Vehicle,UCAV)航迹规划约束条件复杂、不确定因素多、实时性要求高的特点,提出了一种基于Voronoi图和改进遗传算法的快速航迹规划方法。该方法采取分层航迹规划的思想,首先根据Voronoi图生成初始航迹,并综合考虑约束条件,赋予各条航迹相应的权值;然后应用改进的遗传算法在生成的航迹空间中寻优,最终得到满意的航迹。该算法利用多处理机并行计算技术对传统遗传算法进行改进,大大缩短寻优时间。仿真结果表明基于Voronoi图和改进遗传算法的航迹规划提高了实时性,增强了UCAV的动态战场适应能力和突发威胁应对能力。     

基于进化算法的多无人机协同航路规划

以突防航路时域协同指数、空域协同指数、突防时长指数和受威胁指数为规划目标,以最小直线航路段长度、可飞空域、续航能力和进入任务航路方向为约束,构建了多无人机协同突防航路规划模型。结合模型特点,利用合作型协同进化遗传算法对该模型进行求解。     

指定目标不延误条件下的拦截决策算法

从现有的拦截排序准则出发,根据实际作战中进袭目标的特点,应用现代排序理论,分别建立了动态目标拦截排序模型和总损失最小化模型,给出相应的求解算法。最后实例计算得出模型既体现了现有的拦截准则,又对现有的准则进行了推广。     

舰载机多机一体化机务保障调度研究

针对舰载机多机一体化机务保障调度问题,以出树、入树的形式描述实际保障过程中并行工序的约束关系,以最大保障完工时间和资源负载均衡性为目标,构建了舰载机多机一体化机务保障非线性多目标混合流水车间调度模型,并设计了一种结合基于Insert的动态邻域爬山搜索策略和并行工序的同步化修正的Memetic算法求解该模型。最后通过实例仿真验证了模型和所提算法的可行性和有效性。     

A branch‐and‐price algorithm for parallel machine scheduling with time windows and job priorities

This paper presents a branch‐and‐price algorithm for scheduling n jobs on m nonhomogeneous parallel machines with multiple time windows. An additional feature of the problem is that each job falls into one of ρ priority classes and may require two operations. The objective is to maximize the weighted number of jobs scheduled, where a job in a higher priority class has “infinitely” more weight or value than a job in a lower priority class. The methodology makes use of a greedy randomized adaptive search procedure (GRASP) to find feasible solutions during implicit enumeration and a two‐cycle elimination heuristic when solving the pricing subproblems. Extensive computational results are presented based on data from an application involving the use of communications relay satellites. Many 100‐job instances that were believed to be beyond the capability of exact methods, were solved within minutes. © 2005 Wiley Periodicals, Inc. Naval Research Logistics, 2006     

联合作战规划中资源调度算法研究

以联合作战为例建立任务和作战平台资源模型,通过多维动态列表规划算法(Multidimensional Dynamic List Scheduling,MDLS)进行任务-平台分配,对平台选择提出了两种不同的优先权计算方法,通过对案例求解比较了不同方法的结果.     

Cyclic preference scheduling for nurses using branch and price

This paper presents a new methodology to solve the cyclic preference scheduling problem for hourly workers. The focus is on nurse rostering but is applicable to any organization in which the midterm scheduling decision must take into account a complex of legal, institutional, and preferential constraints. The objective is to strike a balance between satisfying individual preferences and minimizing personnel costs. The common practice is to consider each planning period independently and to generate new rosters at the beginning of each. To reduce some of the instability in the process, there is a growing trend toward cyclic schedules, which are easier to manage and are generally perceived to be more equitable. To address this problem, a new integer programming model is presented that combines the elements of both cyclic and preference scheduling. To find solutions, a branch‐and‐price algorithm is developed that makes use of several branching rules and an extremely effective rounding heuristic. A unique feature of the formulation is that the master problem contains integer rather than binary variables. Computational results are reported for problem instances with up to 200 nurses. Most were solved within 10 minutes and many within 3 minutes when a double aggregation approach was applicable. © 2006 Wiley Periodicals, Inc. Naval Research Logistics, 2007.     

An FPTAS for scheduling a two‐machine flowshop with one unavailability interval

We study a deterministic two‐machine flowshop scheduling problem with an assumption that one of the two machines is not available in a specified time period. This period can be due to a breakdown, preventive maintenance, or processing unfinished jobs from a previous planning horizon. The problem is known to be NP‐hard. Pseudopolynomial dynamic programming algorithms and heuristics with worst case error bounds are given in the literature to solve the problem. They are different for the cases when the unavailability interval is for the first or second machine. The existence of a fully polynomial time approximation scheme (FPTAS) was formulated as an open conjecture in the literature. In this paper, we show that the two cases of the problem under study are equivalent to similar partition type problems. Then we derive a generic FPTAS for the latter problems with O(n⁵/ε⁴) time complexity. © 2003 Wiley Periodicals, Inc. Naval Research Logistics, 2004.     

Proactive release procedures for just‐in‐time job shop environments,subject to machine failures

In this paper, we consider just‐in‐time job shop environments (job shop problems with an objective of minimizing the sum of tardiness and inventory costs), subject to uncertainty due to machine failures. We present techniques for proactive uncertainty management that exploit prior knowledge of uncertainty to build competitive release dates, whose execution improves performance. These techniques determine the release dates of different jobs based on measures of shop load, statistical data of machine failures, and repairs with a tradeoff between inventory and tardiness costs. Empirical results show that our methodology is very promising in comparison with simulated annealing and the best of 39 combinations of dispatch rules & release policies, under different frequencies of breakdowns. We observe that the performance of the proactive technique compared to the other two approaches improves in schedule quality (maximizing delivery performance while minimizing costs) with increase in frequency of breakdowns. The proactive technique presented here is also computationally less expensive than the other two approaches. © 2004 Wiley Periodicals, Inc. Naval Research Logistics, 2004     

多雷达多目标航迹跟踪中FMM神经网络的应用与仿真

提出了一种基于Fuzzy Min-Max (FMM)人工神经网络的多雷达多目标航迹跟踪的方法。仿真应用的实验结果表明,这种方法能够有效地完成多雷达多目标的数据融合,并比较理想地实现了多雷达多目标的航迹相关。