Dynamic Weapon Target Assignment Based on Intuitionistic Fuzzy Entropy of Discrete Particle Swarm

Aiming at the problems of convergence-slow and convergence-free of Discrete Particle Swarm Optimization Algorithm(DPSO) in solving large scale or complicated discrete problem, this article proposes Intuitionistic Fuzzy Entropy of Discrete Particle Swarm Optimization(IFDPSO) and makes it applied to Dynamic Weapon Target Assignment(WTA). First, the strategy of choosing intuitionistic fuzzy parameters of particle swarm is defined, making intuitionistic fuzzy entropy as a basic parameter for measure and velocity mutation. Second, through analyzing the defects of DPSO, an adjusting parameter for balancing two cognition, velocity mutation mechanism and position mutation strategy are designed, and then two sets of improved and derivative algorithms for IFDPSO are put forward, which ensures the IFDPSO possibly search as much as possible sub-optimal positions and its neighborhood and the algorithm ability of searching global optimal value in solving large scale 0-1 knapsack problem is intensified. Third, focusing on the problem of WTA, some parameters including dynamic parameter for shifting firepower and constraints are designed to solve the problems of weapon target assignment. In addition, WTA Optimization Model with time and resource constraints is finally set up, which also intensifies the algorithm ability of searching global and local best value in the solution of WTA problem. Finally, the superiority of IFDPSO is proved by several simulation experiments. Particularly, IFDPSO, IFDPSO1~IFDPSO3 are respectively effective in solving large scale, medium scale or strict constraint problems such as 0-1 knapsack problem and WTA problem.

Binary Gravitational Search based Algorithm for Optimum Siting and Sizing of DG and Shunt Capacitors in Radial Distribution Systems

This paper presents a binary gravitational search algorithm (BGSA) is applied to solve the problem of optimal allotment of DG sets and Shunt capacitors in radial distribution systems. The problem is formulated as a nonlinear constrained single-objective optimization problem where the total line loss (TLL) and the total voltage deviations (TVD) are to be minimized separately by incorporating optimal placement of DG units and shunt capacitors with constraints which include limits on voltage, sizes of installed capacitors and DG. This BGSA is applied on the balanced IEEE 10 Bus distribution network and the results are compared with conventional binary particle swarm optimization.

Hybridization of Fuzzy and Hard Semi-Supervised Clustering Algorithms Tuned with Ant Lion Optimizer Applied to Higgs Boson Search

This paper focuses on the unsupervised detection of the Higgs boson particle using the most informative features and variables which characterize the“Higgs machine learning challenge 2014”data set.This unsupervised detection goes in this paper analysis through 4 steps:(1)selection of the most informative features from the considered data;(2)definition of the number of clusters based on the elbow criterion.The experimental results showed that the optimal number of clusters that group the considered data in an unsupervised manner corresponds to 2 clusters;(3)proposition of a new approach for hybridization of both hard and fuzzy clustering tuned with Ant Lion Optimization(ALO);(4)comparison with some existing metaheuristic optimizations such as Genetic Algorithm(GA)and Particle Swarm Optimization(PSO).By employing a multi-angle analysis based on the cluster validation indices,the confusion matrix,the efficiencies and purities rates,the average cost variation,the computational time and the Sammon mapping visualization,the results highlight the effectiveness of the improved Gustafson-Kessel algorithm optimized withALO(ALOGK)to validate the proposed approach.Even if the paper gives a complete clustering analysis,its novel contribution concerns only the Steps(1)and(3)considered above.The first contribution lies in the method used for Step(1)to select the most informative features and variables.We used the t-Statistic technique to rank them.Afterwards,a feature mapping is applied using Self-Organizing Map(SOM)to identify the level of correlation between them.Then,Particle Swarm Optimization(PSO),a metaheuristic optimization technique,is used to reduce the data set dimension.The second contribution of thiswork concern the third step,where each one of the clustering algorithms as K-means(KM),Global K-means(GlobalKM),Partitioning AroundMedoids(PAM),Fuzzy C-means(FCM),Gustafson-Kessel(GK)and Gath-Geva(GG)is optimized and tuned with ALO.

Optimal Allocation of a Hybrid Wind Energy-Fuel Cell System Using Different Optimization Techniques in the Egyptian Distribution Network

This paper presents an optimal proposed allocating procedure for hybrid wind energy combined with proton exchange membrane fuel cell (WE/PEMFC) system to improve the operation performance of the electrical distribution system (EDS). Egypt has an excellent wind regime with wind speeds of about 10 m/s at many areas. The disadvantage of wind energy is its seasonal variations. So, if wind power is to supply a significant portion of the demand, either backup power or electrical energy storage (EES) system is needed to ensure that loads will be supplied in reliable way. So, the hybrid WE/PEMFC system is designed to completely supply a part of the Egyptian distribution system, in attempt to isolate it from the grid. However, the optimal allocation of the hybrid units is obtained, in order to enhance their benefits in the distribution networks. The critical buses that are necessary to install the hybrid WE/ PEMFC system, are chosen using sensitivity analysis. Then, the binary Crow search algorithm (BCSA), discrete Jaya algorithm (DJA) and binary particle swarm optimization (BPSO) techniques are proposed to determine the optimal operation of power systems using single and multi-objective functions (SOF/MOF). Then, the results of the three optimization techniques are compared with each other. Three sensitivity factors are employed in this paper, which are voltage sensitivity factor (VSF), active losses sensitivity factor (ALSF) and reactive losses sensitivity factor (RLSF). The effects of the sensitivity factors (SFs) on the SOF/MOF are studied. The improvement of voltage profile and minimizing active and reactive power losses of the EDS are considered as objective functions. Backward/forward sweep (BFS) method is used for the load flow calculations. The system load demand is predicted up to year 2022 for Mersi-Matrouh City as a part of Egyptian distribution network, and the design of the hybrid WE/PEMFC system is applied. The PEMFC system is designed considering simplified mathematical expressions. The economics of operation of both WE and PEMFC system are also presented. The results prove the capability of the proposed procedure to find the optimal allocation for the hybrid WE/PEMFC system to improve the system voltage profile and to minimize both active and reactive power losses for the EDS of Mersi-Matrough City.

公路隧道风光水储互补发电系统容量配置研究

为降低公路隧道的电力运营成本,探究可再生能源互补发电系统在公路隧道的应用前景,研究合适的容量配置求解方法。建立利用风、光、水和储能设备的互补发电系统为公路隧道提供电力资源。以特长公路隧道(总长7.1 km)为估算模型,采用改进后的粒子群优化算法,即离散型自适应粒子群优化算法,以全生命周期的建设成本和设备维护成本最小为目标函数,以缺电负荷率(LPSP)和储能电池的状态为约束,对风力发电设备、光伏发电设备、水力发电设备和储能设备的最优容量配置进行求解。结果表明:1)对比标准粒子群算法,离散型自适应粒子群优化算法的总投入成本更少,寻优能力更强;2)对比该隧道1年的用电成本,前期投入将在5年内回本;3)在风光水储互补发电系统的设备全生命使用周期的20年内,该隧道可节省1 920.39万元电费。

基于离散粒子群算法的管道保温结构优化研究

针对目前管道保温结构优化算法不稳定、结果优化程度不高的问题,建立以经济效益为目标函数,以满足国家散热损失标准等条件为约束函数的离散型数学模型。以BPSO算法为基础改变其位置更新规则,防止种群进化失效;采用自适应权重增加粒子的全局和局部搜索能力;充分利用模拟退火算法的思想避免出现早熟现象。应用改进的算法分别对普通蒸汽管道和核电站的蒸汽管道进行系统仿真实验。结果表明,该算法能够在满足国家散热损失标准等条件下取得最优解,可以为管道保温结构提供合理的优化方案。

基于相量测量单元优化配置的配电网谐波状态估计研究

随着大量电力电子设备的接入,配电网谐波问题愈发严重。谐波状态估计的准确性直接影响到后续的谐波治理效果。相量测量单元(phasor measurement unit,PMU)可以实时测量节点电压与支路电流,可借助其实现谐波状态估计。然而目前PMU价格较高,如何进行合理的优化配置保证全网谐波状态可观,同时提高谐波状态估计的准确性,是亟待解决的问题。首先构建以PMU经济配置和谐波状态估计精度最高为目标的PMU优化配置模型,并提出一种改进二进制粒子群-遗传混合算法用于求解。随后在实时仿真器中搭建IEEE14节点模型,选用均值插补法以及Vondrak滤波法进行数据处理并分析了优化所得多种PMU配置场景对谐波状态估计的影响。结果表明:所提算法从减少投资成本及降低谐波状态估计误差角度考虑,能够给出合理的PMU配置方案,有助于支撑工程决策。

基于γ随机搜索策略的无人机集群海上任务分配

针对无人机(UAV)集群海上作战态势复杂、作战任务多样、作战单元异构的特点,建立了海上无人机集群多目标任务分配优化模型,并针对该模型提出了一种基于γ随机搜索策略的改进离散粒子群算法(γ-DPSO)。将作战态势细节与复杂作战需求等引入无人机集群任务分配问题,建立契合作战场景的无人机集群任务分配作战模型;基于粒子编码矩阵,设计均衡搜索策略、γ随机搜索策略、分阶段自适应参数,提出基于γ随机搜索策略的改进离散粒子群算法,解决离散粒子群算法易陷入局部最优造成未成熟收敛的问题。仿真结果表明:针对所建立的符合海上作战特点的无人机集群多目标任务分配优化模型,所提算法可有效解决无人机集群多目标任务分配问题,所提改进策略提高了算法的收敛速度与算法精度。

基于GA-PSO混合优化SVM的机载EHA故障诊断

针对机载电静液作动器(Electro-Hydrostatic Actuator,EHA)的典型故障,详细分析了故障原理并在MATLAB/Simulink中搭建了仿真模型。为了高效准确识别故障类型,提出一种用遗传算法(Genetic Algorithm,GA)和粒子群算法(Particle Swarm Optimization,PSO)混合优化支持向量机(Support Vector Machine,SVM)的故障诊断算法。GA鲁棒性好且全局搜索能力强但收敛速度慢,PSO对样本规模不敏感且具有记忆功能但易陷入局部最优,故融合两种算法寻找SVM的最优参数。另外,为了解决传统SVM多分类方法“一对多”和“一对一”易出现不可分的问题,建立一种偏二叉树结构的SVM多分类模型。对于采集的原始数据高度重合的情况,引入时域特征统计量进一步提升模型的分类性能。实验结果表明,提出的混合优化算法寻优速度更快、所寻参数更佳,同时用该算法优化的SVM分类模型相比于其他5类常用的机器学习模型分类效果更好,故障识别正确率可达97.7%。

微分光谱变换方法对土壤重金属含量反演精度的影响研究

随着我国工农业的日益发展,土壤中以镍(Ni)、铁(Fe)、铜(Cu)、铬(Cr)、铅(Pb)等为代表的重金属污染对人类生活产生了严重影响。高光谱遥感技术具有实时、无损、快速等优点,为高效准确地获取土壤重金属含量提供了科学手段。而在利用高光谱数据反演土壤重金属含量时,微分光谱变换方法的选择对遥感反演土壤重金属含量的精度有显著影响。为明确二者关系,基于研究区采集的60个土壤样品,测定其Ni、Fe、Cr、Cu、Pb等含量以及350~2500 nm波段范围的光谱反射率。在相关系数(CC)分析法的基础上通过改进离散粒子群算法(MDBPSO)优选遥感探测土壤重金属含量的特征波段。最终以优选出的特征波段作为自变量利用随机森林(RF)算法构建了Ni、Fe、Cr、Cu、Pb等重金属含量的估测模型。在对原始反射率数据进行高斯平滑的基础上,对比分析了一阶微分(R′)、对数倒数的一阶微分(1/lgR)′、倒数的一阶微分(1/R)′、指数的一阶微分(e^(R))′四种微分光谱变换方法对土壤重金属反演精度的影响。结果表明,在CC分析法的基础上,MDBPSO算法可以有效地降低光谱数据的冗余度,提高模型的运行效率。其中R′、(1/lgR)′、(1/R)′、(e^(R))′中对Ni、Fe、Cr、Cu、Pb敏感的特征波段个数分别至少减少了154、363、135、744和889个。(1/lgR)′、R′、R′、(1/R)′、R′光谱变换方法分别应用到Ni、Fe、Cr、Cu、Pb特征波段的组合运算中,得到的估测模型的精度优于其他微分变换方法;模型检验集的决定系数分别为0.913、0.906、0.872、0.912、0.876,均方根误差分别为0.743、0.095、2.588、1.541、1.453。本研究为利用遥感数据反演土壤重金属含量微分光谱变换方法的选择提供了科学的参考,为进一步实现土壤重金属含量的大面积高精度遥感监测提供新的思路。

多电压等级交流电网容载比计算方法

现有的容载比计算方法未考虑不同电压等级对交流电网的影响,导致交流电网可靠性与经济性无法同时达到最优,因此在考虑电压等级的基础上,提出多电压等级交流电网容载比计算方法。分别计算高压与低压模式下交流电网的供电能力,根据供电能力利用离散粒子群优化算法计算不同电压等级的容载比粒子数,得到多电压等级交流电网的最优容载比计算结果,从而实现多电压等级交流电网容量配置优化。实验结果表明,该方法能够使变压器容载比达到最优,优化后的交流电网供电可靠性、经济性及满意度均较高。

王徐庄油田薄层生物石灰岩小—微裂缝识别及建模

小—微裂缝作为王徐庄油田沙河街组薄层生物石灰岩重要的储集空间之一,因缺乏有效的测量方法和表征技术,导致其研究较为困难,影响了油气开发中流体流动能力的预测。综合岩心、岩石薄片、CT扫描、地层微电阻率扫描成像测井、常规测井等资料,对小—微裂缝的发育情况开展研究。采用PSO-BP神经网络预测研究区裂缝性储集层发育情况及分布特征,提出了离散裂缝网络模拟方法,模拟了小—微裂缝的空间展布。结果表明:小—微裂缝发育的生物石灰岩深、浅电阻率幅差较大;研究区生物石灰岩小—微裂缝较为发育,对改善储集层物性和注水受效方向有重要意义;小—微裂缝受控于断裂带和生物石灰岩沉积微相。油藏数值模拟证实,融合小—微裂缝介质的双孔双渗模型的油水关系动态拟合效果更好。

基于可重构智能表面的信息调制与空分多址

为了减小当前大规模天线系统中高射频成本和高功耗带来的发展限制,将可重构智能表面(Reconfigurable Intelligent Surface,RIS)技术引入新型发射机设计中,提出了一种基于可重构智能表面的信息调制与空分多址方案。通过控制RIS反射系数实现信息的调制,同时形成指向多个用户包含不同信息的空间波束,实现多用户空分多址,具有低硬件复杂度、低成本、低功耗、易集成等优点。以双用户双流发送为例,基于二进制粒子群算法给出了方案的具体实现,并进行了仿真评估。仿真结果表明,该方案能完成面向双用户的双流信号同时同频的2幅移键控(Amplitude Shift Keying,ASK)调制,并通过空分多址发送给两个用户。

基于粒子群优化算法的无线传感器网络节点优化部署研究

无线传感器网络是一种感知区域环境信息的分布式网络,在监测过程中其节点容易受到外界因素的影响,导致监测效果不理想。为此,研究基于粒子群优化算法的无线传感器网络节点优化部署方法。利用无线传感器网络的节点传播特性,对各节点间的分布关系展开分析,引入轮盘法,剔除无线传感器网络中的恶意节点。在网络中建立一个可将节点均分的网格,通过安全定位法划分未知节点的活动区域,引入数学形态的组合关系建立节点部署模型,通过粒子群优化算法对部署模型展开求解,完成节点的优化部署。仿真结果表明,所提方法的丢包率低于0.6%,在运行15轮之后感知误差降至0.55,能够有效延长网络的生命周期,实现无线传感器网络节点优化部署。

大型基础设施周转材料施工方案多目标优化研究

基于离散事件仿真理论和多目标优化理论,结合实际工程案例,建立了离散仿真模型和多目标优化模型,利用智能优化算法对可行的周转材料施工方案进行了“工期-成本”优化。将周转材料的施工过程进行了逻辑抽象,对其施工过程分解并离散化,从而建立离散仿真模型,实现施工方案的参数化,并自动生成所有可行的周转方案,以选用粒子群算法进行多目标优化。在案例研究中,分析了863341种施工方案,利用粒子群算法对各种方案进行工期-成本优化,将其结果和传统方案进行比对,证明了优化方案的优越性。将离散事件仿真理论和多目标优化理论引入到大型基础设施周转材料施工方案的优化中,为其管理决策提供了新的方法依据。

双子群自适应变异多目标粒子群算法

多目标粒子群优化算法因其强大的搜索能力和简单的实现方式受到广泛关注,然而它在收敛性和多样性之间常常存在不平衡的问题。为了解决这一问题,作者提出了一种双子群自适应变异多目标粒子群算法(BAMOPSO),旨在更好地平衡收敛性和多样性。首先,采用一种新颖的双子群初始化方法,使粒子在目标空间中分布更均匀,从而提高算法的多样性。其次,设计了一种新的自适应变异策略,依据进化过程中目标函数值的变化来提升收敛性。最后,通过将BAMOPSO算法与六个经典多目标优化算法在十五个基准测试函数上进行比较实验,验证了该算法在平衡收敛性和多样性方面的显著提升。

考虑可持续发展的电厂生产调度优化方法

文章在考虑可持续发展因素基础上,提出一种电厂生产调度优化方法。分析了电厂生产调度现状与挑战,发现在传统方法中存在着资源利用不足和环境影响较大的情况。为解决这些问题,采用了一种基于多目标优化的模型平衡电厂的经济效益和环境效益。结果表明,该方法可在有效提高电厂生产效益的同时,降低环境污染,对实现电厂的可持续发展具有重要意义。

配电网重构的混合粒子群算法

通过将二进制粒子群算法和离散粒子群算法相结合,提出一种混合粒子群算法,求解配电网重构问题。在求解过程中,通过对配网支路进行分组,简化了网络,编码时每一支路组用1维表示,不仅显著降低了维数,缩短了编码长度,更有效降低了无效粒子的产生概率。在搜索过程中,根据该文总结的配电网重构的必要条件,有规律地将粒子进化,进一步提高了搜索效率。在优化过程中将每一次迭代由2步完成:第1步根据二进制粒子群算法中的sigmoid()函数值,利用轮盘赌的方法优化选择断开的支路组;第2步利用提出的离散粒子群算法优化选择在第1步中被选中断开的支路组的内部断开支路。最后对一个典型的69节点算例和一个实际算例进行仿真,结果显示,该方法不仅能快速收敛,而且稳定性好。

带时间窗车辆路径问题的混合粒子群算法

将粒子群优化算法与模拟退火算法结合,提出了一种求解车辆路径问题的混合粒子群算法.实例计算及与遗传算法比较的结果表明:应用混合粒子群算法可以快速地求得带时间窗车辆路径问题的优化解;该算法是一种求解离散组合优化问题的有效方法.

考虑潮流约束的限流措施优化配置

电力系统限流措施优化配置是复杂的非凸、非线性问题,在考虑潮流约束后,模型更复杂。为此,通过分析节点阻抗矩阵与各种限流措施的关系,提出一种措施变量的筛选策略,缩减变量数目,避免维数灾难。根据限流措施优化配置问题的特点,提出先对候选可开断支路采用枚举法求解支路开断的优化方案,再采用改进离散粒子群算法(MDPSO)求解综合限流方案。新英格兰39节点系统的仿真计算表明,该方法具有良好的优化效果,且收敛速度快,验证了所提出的模型和算法的可行性。