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101.
利用下层问题的K-T最优性条件将下层为线性规划的一类非线性二层规划转化为相应的单层规划,同时取互补条件为罚项,得到该类问题的单层罚问题;然后利用Frank-Wolfe方法对单层罚问题进行求解.数值实验表明该方法是可行的. 相似文献
102.
在供水系统实际运行过程中,调度人员往往根据实际需求,在当前水泵运行状态的基础上开启或关闭一台水泵,以调节管网中的压力和流量.人工经验的调度方式难以充分反映并结合管网中压力、流量的变化及实际需求,进而及时作出科学决策.针对此问题,提出了多水源泵站在线优化控制技术,建立了基于直接优化调度方法的在线优化控制模型,采用智能优化算法进行了求解,并确立了四项方案评价指标对在线优化控制方案进行评价.将所建立的模型,应用于南方城市供水系统在线优化控制中,验证了其实用性,并编制了相应的计算程序软件. 相似文献
103.
104.
一种改善雷达收发隔离的新方法 总被引:1,自引:0,他引:1
针对连续波体制雷达的特点,提出了采用光子晶体高阻表面提高雷达收发隔离的新方法.该方法利用光子晶体频率带隙与周期结构尺寸之间的关系,可灵活设计出雷达工作频段的高阻表面.将光子晶体高阻表面加装到某型连续波雷达的天线上,提高雷达收发隔离度达15 dB,证明了该方法的有效性. 相似文献
105.
106.
雷达侦察接收机往往侦察到的是通信和雷达脉冲的混合信号,如何从通信信号背景中有效提取出雷达脉冲波形,是现代雷达信号处理领域中的重要内容。针对这一问题,提出了一种基于奇异值分解的通信与雷达混合信号中脉冲波形估计算法。该算法通过对信号观测矩阵的奇异值分析和协方差矩阵的特征值分析,证明了观测矩阵的奇异值分解具有稳定性,并且奇异值分解能够最佳近似观测信号的线性特征,给出了一种利用左右奇异向量估计脉冲波形及其相对初相的方法。本文的算法适用于任意脉冲波形,并且能够在较低信噪比环境下估计脉冲信号波形和相对相位,仿真结果证明了算法的有效性。 相似文献
107.
为了提高系统的可靠度,并联技术在重要系统上被广泛地采用.针对并联系统中的两冗余部件在物理性能、工作环境等方面的相似性以及检测时存在不完备的特点,提出了不完备交叉检测策略.为此研究了并联系统在此策略下的不同更新情况和相应的更新概率,以检测间隔和检测次数为优化变量、可靠度为约束、期望维修费用率为目标函数,建立了并联系统的优化维修模型.最后,通过实例验证了模型的有效性和经济性. 相似文献
108.
DECISION MAKING - THE ANALYTIC HIERARCHY AND NETWORK PROCESSES (AHP/ANP) 总被引:25,自引:0,他引:25
Thomas L.SAATY 《系统科学与系统工程学报(英文版)》2004,13(1)
This is the first part of an introduction to multicriteria decision making using the Analytic Hierarchy Process (AHP) and its generalization, the Analytic Network Process (ANP). The discussion involves individual and group decisions both with the independence of the criteria from the alternatives as in the AHP and also with dependence and feedback in the entire decision structure as in the ANP. This part explains the Analytic Hierarchy Process, with examples, and presents in some detail the mathematical foundations. An exposition of the Analytic Network Process and its applications will appear in later issues of this journal. 相似文献
109.
Thomas L. SAATY 《系统科学与系统工程学报(英文版)》2004,13(4):385-404
1. Introduction This is the fourth exposition on theAnalytic Hierarchy Process. It is true thatmany decisions we make subconsciously ariseout of our physical and biological needs andderive from the pressure to survive physically.We also make subconsciou… 相似文献
110.
Thomas L. Saaty 《系统科学与系统工程学报(英文版)》2004,13(2):129-157
The Analytic Network Process (ANP) is a multicriteria theory of measurement used to derive relative priority scales of absolute
numbers from individual judgments (or from actual measurements normalized to a relative form) that also belong to a fundamental
scale of absolute numbers. These judgments represent the relative influence, of one of two elements over the other in a pairwise
comparison process on a third element in the system, with respect to an underlying control criterion. Through its supermatrix,
whose entries are themselves matrices of column priorities, the ANP synthesizes the outcome of dependence and feedback within
and between clusters of elements. The Analytic Hierarchy Process (AHP) with its independence assumptions on upper levels from
lower levels and the independence of the elements in a level is a special case of the ANP. The ANP is an essential tool for
articulating our understanding of a decision problem. One had to overcome the limitation of linear hierarchic structures and
their mathematical consequences. This part on the ANP summarizes and illustrates the basic concepts of the ANP and shows how
informed intuitive judgments can lead to real life answers that are matched by actual measurements in the real world (for
example, relative dollar values) as illustrated in market share examples that rely on judgments and not on numerical data.
Thomas L. Saaty holds the Chair of University Professor, Katz Graduate School of Business, University of Pittsburgh, Pittsburgh, PA, and
obtained his Ph.D. in mathematics from Yale University. Before that he was a professor at the Wharton School of the University
of Pennsylvania for ten years. Prior to that he spent seven years at the Arms Control and Disarmament Agency in the State
Department in Washington, DC, that carried out the arms reduction negotiations with the Soviets in Geneva. His current research
interests include decision-making, planning, conflict resolution and synthesis in the brain. As a result of his search for
an effective means to deal with weapons tradeoffs at the Disarmament Agency and, more generally, with decision-making and
resource allocation, Professor Saaty developed The Analytic Hierarchy Process (AHP) and its generalization to dependence and
feedback, the Analytic Network Process (ANP). He is co-developer of the software Expert Choice and of the software Super Decisions
for decisions with dependence and feedback. He has authored or co-authored twelve books on the AHP/ANP. Professor Saaty has
also written a number of other books that embrace a variety of topics, including Modern Nonlinear Equations, Nonlinear Mathematics, Graph Theory, The Four Color Problem, Behavioral Mathematics, Queuing Theory,
Optimization in Integers, Embracing the Future and The Brain: Unraveling the Mystery of How It Works. His most recent book is Creative Thinking, Problem Solving & Decision Making. The book is a rich collection of ideas, incorporating research by a growing body of researchers and practitioners, profiles
of creative people, projects and products, theory, philosophy, physics and metaphysics...all explained with a liberal dose
of humor. He has published more than 300 refereed articles in a wide variety of professional journals. He has been on the
editorial boards of Mathematical Reviews, Operations Research, Naval Research Logistics Quarterly, Mathematical and Computer
Modeling, Socio-Economic Planning Sciences, Applied Mathematics Letters, and several others. He also served as consultant
to many corporations and governments. 相似文献