船舶电力系统的脆性建模

目录

目 录

摘要 .......................................................................................................................................... I Abstract.................................................................................................................................. III 第1章 绪论 ........................................................................................................................... 1 1.1船舶电力系统脆性理论研究背景 ............................................................................... 1 1.2船舶电力系统脆性理论研究的目的和意义 ............................................................... 2 1.3国内外相关领域的发展和研究现状 ........................................................................... 3 1.4本论文研究对象和内容 ............................................................................................... 4 1.5本论文的主要工作 ....................................................................................................... 5 第2章 船舶电力系统的脆性及其理论基础 ....................................................................... 7 2.1引言 ............................................................................................................................... 7 2.2船舶电力系统脆性的客观存在 ................................................................................... 7 2.3船舶电力系统脆性的定义 ........................................................................................... 7 2.4船舶电力系统脆性的特点 ........................................................................................... 8 2.5船舶电力系统脆性激发的条件 ................................................................................... 9 2.6船舶电力系统脆性的传播模式 ................................................................................. 10 2.7船舶电力系统脆性与其它理论联系 ..........................................................................11 2.7.1船舶电力系统脆性和协同学的关系 ...................................................................11 2.7.2船舶电力系统脆性和可靠性的关系 .................................................................. 12 2.7.3自组织理论 .......................................................................................................... 12 2.7.4耗散结构理论 ...................................................................................................... 12 2.7.5熵与负熵理论 ...................................................................................................... 13 2.7.6直流潮流理论 ...................................................................................................... 16 2.7.7复杂适应系统理论 .............................................................................................. 18 2.8本章小结 ..................................................................................................................... 19 第3章 船舶电力系统脆性结构模型及其分析 ................................................................. 21 3.1引言 ............................................................................................................................. 21 3.2复杂系统的脆性结构模型 ......................................................................................... 21 3.3船舶电力系统的递阶层次结构 ................................................................................. 22 3.4复杂系统脆性分析的层次分析方法 ......................................................................... 23 3.5 船舶电力系统脆性分析实例..................................................................................... 24 3.6 本章小结..................................................................................................................... 26 第4章 基于适应性Agent图的船舶电力系统的脆性建模 ............................................. 27 4.1引言 ............................................................................................................................. 27 4.2适应性Agent图模型 ................................................................................................. 27 4.2.1适应性Agent图的基本内容及其改进 .............................................................. 27 4.2.2适应性Agent图的矩阵表示 .............................................................................. 29 4.2.3适应性Agent图的动力学特性 .......................................................................... 30 4.2.4适应性Agent图的适应性行为 .......................................................................... 32

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目录

4.2.5适应性Agent图的控制器 ...................................................................................34 4.3船舶电力系统脆性的适应性Agent图模型 ..............................................................35 4.4船舶电力系统脆性的适应性Agent图模型仿真实例 ..............................................38 4.5基于直流潮流优化的改进脆性建模算法 ..................................................................42 4.6本章小结 ......................................................................................................................44 第5章 基于自组织临界理论的船舶电力系统脆性分析 ..................................................45 5.1引言 ..............................................................................................................................45 5.2自组织临界理论 ..........................................................................................................45 5.2.1长尾分布与幂律分布 ...........................................................................................45 5.2.2沙堆模型与米堆模型 ...........................................................................................46 5.2.3脆性与自组织临界性的关系 ...............................................................................48 5.3船舶电力系统脆性自组织临界性模型 ......................................................................48 5.4船舶电力系统脆性自组织临界性仿真与分析 ..........................................................53 5.5本章小结 ......................................................................................................................60 结论与展望 ............................................................................................................................61 参考文献 ................................................................................................................................63 攻读学位期间发表的学术论文目录 ....................................................................................66

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Contents

Contents

Abstract(Chinese) ..................................................................................................................... I Abstract(English)................................................................................................................... III Chapter 1 Introduction............................................................................................................. 1 1.1 Brittleness Theory Research Background of Ship Electrical Power System ................ 1 1.2 Purpose and Meaning of Brittleness Theory Research of Ship Electrical Power

System ........................................................................................................................... 2 1.3 Development and Research Status of Domestic and Foreign Relevant Fields ............. 3 1.4 Research Contents and Main Works.............................................................................. 4 1.5 Innovative Points ........................................................................................................... 5 Chapter 2 Brittleness and Its Theoretical Basis Of Ship Electrical Power System ................. 7 2.1 Foreword ....................................................................................................................... 7 2.2 Objective Existence of Brittleness of Ship Electrical Power System............................ 7 2.3 Definition of Brittleness of Ship Electrical Power System ........................................... 7 2.4 Characteristics of Brittleness of Ship Electrical Power System .................................... 8 2.5 Stimulate Conditions of Brittleness of Ship Electrical Power System .......................... 9 2.6 Transmission Mode of Brittleness of Ship Electrical Power System .......................... 10 2.7 Relevance Between Brittleness of Ship Electrical Power System and Other theories .11 2.7.1 Relevance Between Brittleness of Ship Electrical Power System and Synergetics ........................................................................................................................................11 2.7.2 Relevance Between Brittleness of Ship Electrical Power System and Reliability ....................................................................................................................................... 12 2.7.3 Theory of Self-organization.................................................................................. 12 2.7.4 Theory of Dissipative Structure............................................................................ 12 2.7.5 Theory of Entropy and Negentropy...................................................................... 13 2.7.6 Theory of DC Current........................................................................................... 16 2.7.7 Complex Adaptive System Theory....................................................................... 18 2.8 Chapter Summary ........................................................................................................ 19 Chapter 3 Brittleness Structural Model and Analysis of Ship Electrical Power System....... 21 3.1 Foreword...................................................................................................................... 21 3.2 Brittleness Structural Model of Complex System ....................................................... 21 3.3 Stair Hiberarchy of Ship Electrical Power System ...................................................... 22 3.4 Analytic Hierarchy Process of Brittleness Analysis of Ship Electrical Power System 23 3.5 Example of Brittleness Analysis of Ship Electrical Power System............................. 24 3.6 Chapter Summary ........................................................................................................ 26 Chapter 4 Modeling on Brittleness of Ship Electrical Power System Based on Agent

Digraph .................................................................................................................. 27 4.1 Foreword...................................................................................................................... 27 4.2 Model of Adaptive Agent Digraph .............................................................................. 27 4.2.1 Basic Content and its Improvement of Adaptive Agent Digraph ......................... 27 4.2.2 Matrix Expression of Adaptive Agent Digraph .................................................... 29 4.2.3 Dynamic Characteristics of Adaptive Agent Digraph ......................................... 30

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Contents

4.2.4 Adaptive Behavior of Adaptive Agent Digraph ...................................................32 4.2.5 Controller of Adaptive Agent Digraph .................................................................34 4.3 Model of Adaptive Agent Digraph of Ship Electrical Power System ..........................35 4.4 Simulation Example of Model of Adaptive Agent Digraph of Ship Electrical Power

System ..........................................................................................................................38 4.5 Improved Modeling Algorithm of Brittleness Based on DC Current Optimization ....42 4.6 Chapter Summary.........................................................................................................44 Chapter 5 Brittleness Analysis of Ship Electrical Power System Based on Self-organized

Criticality Theory ...................................................................................................45

5.1 Foreword ......................................................................................................................45 5.2 Theory of Self-organized Criticality ............................................................................45 5.2.1 Distribution of the Long Tail and Power-law........................................................45 5.2.2 Model of Sand Pile and Rice Pile..........................................................................46 5.2.3 Relevance Between Brittleness and Self-organizedCriticality..............................48 5.3 Self-organized Criticality Model of Brittleness of Ship Electrical Power System ......48 5.4 Simulation and analysis Self-organized Criticality Brittleness of Ship Electrical Power

System ..........................................................................................................................53 5.5 Chapter Summary.........................................................................................................60 Conclusion and Outlook.........................................................................................................61 References ..............................................................................................................................63 Papers published During Degree of Academic Eduction Processing.....................................66

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