屋面太阳能电池布设优化模型

以光伏电池接受太阳能辐射强度最大化为目标,建立了太阳能电池板倾角和朝向优化模型,以确定太阳能电池板的最佳布设方式。根据发电量最大化、单位发电费用最小化原则,以净经济效益为目标函数,建立了光伏电池优选模型,对光伏电池进行优选排序从而选出性价比最高的光伏电池,并对模型进行了检验。结果表明：在山西省大同市地区铺设太阳能光伏电池,架空布设电池板的最佳倾角为36°,朝向为南偏西26.5°,光伏电池板最佳布设方式及电池优选模型与实际情况基本相符。     

基于功率控制分组的RFID防碰撞算法改进

为了减少阅读器读取标签过程中的查询次数,降低标签发生碰撞的概率,提高系统效率,针对功率控制分组防碰撞算法不能根据标签数动态地进行组数划分,提出了一种改进算法。采用数学分析与二进制算法相结合的方法,找到最优组数,根据最优组数划分阅读器的读取区域,标签分布在划分的组中,阅读器依次读取不同组中的标签。通过划分组数,减少阅读器每次读取的标签数,从而降低标签碰撞的可能性。仿真结果表明,改进算法显著减少了碰撞次数,提高了系统效率。     

一种基于Dijkstra算法的航空平台组网技术

针对航空平台在超低空和超视距飞行过程中,传统单一的TDMA网络难以满足无盲区通信需求,提出一种基于Dijkstra算法的AdHoc组网技术。通过建立实时邻居信息表、网络拓扑表和动态路由,在工程应用中实现了具有中继功能的地空-空空高速实时无线传输网络,满足了部队通信网络大范围覆盖和实时性需求。     

随机频率步进雷达成像分析

随机频率步进信号兼具步进频率雷达和宽带噪声雷达的特点,不仅可以降低系统瞬时带宽和数据采样率,还具有优良的低截获概率(LPI)、电磁兼容性(EMC)和抗射频干扰(ARFI)特性.分析了随机频率步进信号的相关输出及模糊函数的统计特性,如一阶矩、二阶矩和方差等,并与均匀频率步进信号做了抗干扰性能的比较.提出并分析了相关输出结...     

电子侦察卫星联合侦察的混合调度算法

针对电子侦察卫星的使用约束,及不同任务的调度需求,建立了电子侦察卫星联合侦察的多目标混合整数规划模型.利用进化算法的全局搜索能力和变邻域搜索的局部优化能力,提出了一种多目标进化算法和变邻域搜索相结合两阶段混合调度算法MOEA VNS.针对问题多时间窗组合优化特点,设计了进化算子与邻域移动算子,在确保解多样性的同时使算法...     

雷达装备计量保障计划的优化方法

针对目前部队在制定装备计量保障计划时存在的效率低、难以达到计量保障力量的合理配置,易造成人力、物力和财力浪费等问题,提出了制定雷达旅团装备计量保障计划的排序优化方法.首先介绍雷达旅团计量保障计划的相关概念,然后建立了描述制定计量保障计划的数学模型,并提出了求解模型的优化方法,最后通过实例对模型进行了验证.     

基于遗传算法的无线传感器网络路由研究

无线传感器网络路由算法面临着节省能量、延长网络寿命、提高可靠性等方面的挑战。提出了一种基于遗传的无线传感器网络路由算法。对算法中的算子编码、适应度函数设计、编码方式及参数选取进行了细致研究。仿真结果表明,本算法减少了能耗、延长了网络生存时间并提高了网络的可靠性。     

改进合同网协议的Agent动态任务分配

针对导弹作战任务规划中的动态任务分配问题,研究了MAS框架下任务分配的形式化描述和数学模型,对动态任务分配的特点进行了分析,运用合同网理论,提出了基于改进合同网协议的Agent动态任务分配算法,实现了对不确定开放环境中动态变化的任务分配方法。算例表明算法是有效的。     

A branch‐and‐bound‐based solution approach for dynamic rerouting of airborne platforms

This article is a sequel to a recent article that appeared in this journal, “An extensible modeling framework for dynamic reassignment and rerouting in cooperative airborne operations” [ 17 ], in which an integer programming formulation to the problem of rescheduling in‐flight assets due to changes in battlespace conditions was presented. The purpose of this article is to present an improved branch‐and‐bound procedure to solve the dynamic resource management problem in a timely fashion, as in‐flight assets must be quickly re‐tasked to respond to the changing environment. To facilitate the rapid generation of attractive updated mission plans, this procedure uses a technique for reducing the solution space, supports branching on multiple decision variables simultaneously, incorporates additional valid cuts to strengthen the minimal network constraints of the original mathematical model, and includes improved objective function bounds. An extensive numerical analysis indicates that the proposed approach significantly outperforms traditional branch‐and‐bound methodologies and is capable of providing improved feasible solutions in a limited time. Although inspired by the dynamic resource management problem in particular, this approach promises to be an effective tool for solving other general types of vehicle routing problems. © 2013 Wiley Periodicals, Inc. Naval Research Logistics, 2013     

Bounded flexibility in days‐on and days‐off scheduling

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