装备基地级维修PPP采购共生系统动力机制(精)

\\\"目录第1章绪论 1.1基本概念界定 1.1.1服务与服务采购 1.1.2装备基地级维修与装备基地级维修采购 1.1.3PPP模式与装备基地级维修PPP采购 1.1.4共生系统与装备基地级维修PPP采购共生系统 1.1.5动力机制与装备基地级维修PPP采购共生系统动力机制 1.2开展装备基地级维修PPP采购现实动因 1.2.1军事动因 1.2.2经济动因 1.2.3社会动因 1.3美军装备基地级维修PPP采购发展历程 1.3.1研究探索阶段（1990年—2001年） 1.3.2初步实施阶段（2002年—2006年） 1.3.3全面开展阶段（2007年至今） 1.4我军装备基地级维修PPP采购面临的基本形势 1.4.1优势 1.4.2劣势 1.4.3机遇 1.4.4挑战 1.5美军装备基地级维修PPP采购经验启示 1.5.1美军装备基地级维修PPP采购经验 1.5.2重要启示第2章装备基地级维修PPP采购理论基础 2.1装备基地级维修采购基本模式 2.1.1类型划分 2.1.2适用范围 2.1.3选择方法 2.2装备基地级维修采购基本模式经济分析 2.2.1条件假设 2.2.2模型建立 2.2.3模型分析 2.2.4基本结论 2.3装备基地级维修PPP采购系统 2.3.1构成要素 2.3.2层次结构 2.3.3总体功能 2.4装备基地级维修PPP采购系统运营 2.4.1运营架构 2.4.2运营方式 2.4.3运营流程 2.5装备基地级维修PPP采购系统共生本质 2.5.1满足共生的一般条件 2.5.2具备共生的共性特征 2.5.3体现共生的本质属性第3章装备基地级维修PPP采购共生系统 3.1装备基地级维修PPP采购共生系统构成 3.1.1共生要素 3.1.2共生条件 3.1.3共生能量 3.2装备基地级维修PPP采购共生系统结构 3.2.1共生体 3.2.2共生环境 3.2.3逻辑关系 3.3装备基地级维修PPP采购共生系统特征 3.3.1复杂性 3.3.2开放性 3.3.3动态性 3.3.4自组织性 3.3.5协同演化性 3.4装备基地级维修PPP采购共生系统功能 3.4.1资源整合功能 3.4.2风险降低功能 3.4.3技术吸聚功能 3.4.4信息共享功能 3.4.5环境适应功能 3.4.6示范引路功能 3.5装备基地级维修PPP采购共生系统状态 3.5.1共生模式 3.5.2共生状态第4章装备基地级维修PPP采购共生系统动力因素 4.1装备基地级维修PPP采购共生系统共生体源动力 4.1.1共生单元主动力 4.1.2共生界面助动力 4.2装备基地级维修PPP采购共生系统共生环境驱动力 4.2.1军事环境下维修需求激增驱动 4.2.2政策环境下政策法规完善驱动 4.2.3市场环境下服务经济发展驱动 4.2.4社会环境下社会治理变革驱动 4.2.5科技环境下科学技术创新驱动 4.3装备基地级维修PPP采购共生系统动力体系 4.3.1动力结构 4.3.2动力模型 4.3.3动力合成 4.4装备基地级维修PPP采购共生系统动力特征 4.4.1利益主导性 4.4.2内外转化性 4.4.3互动倍增性 4.4.4激励催化性 4.4.5社会责任性第5章装备基地级维修PPP采购共生系统动力机理 5.1装备基地级维修PPP采购共生系统演化基本内涵 5.1.1演化概念 5.1.2演化层次 5.2装备基地级维修PPP采购共生系统演化基本规律 5.2.1微观层面：“内共生”演化规律 5.2.2中观层面：“外共生”演化规律 5.2.3宏观层面：“双共生”自耦合规律 5.3装备基地级维修PPP采购共生系统单生命周期演化动力机制 5.3.1单生命周期演化过程及其动力学模型构建 5.3.2单生命周期动力学模型分析及其动力机制 5.4装备基地级维修PPP采购共生系统全生命周期演化动力机制 5.4.1全生命周期演化过程及其动力学模型构建 5.4.2全生命周期动力学模型分析及其动力机制 5.5装备基地级维修PPP采购共生系统演化动力机理 5.5.1驱动力与源动力“双力”自耦合机制原理体系的逻辑分析 5.5.2驱动力与源动力“双力”自耦合机制的共生能量生成原理 5.5.3基于质参量兼容原理和共生界面选择原理的源动力生成机理 5.5.4基于共生系统相变原理和共生系统进化原理的驱动力驱动机理第6章装备基地级维修PPP采购共生系统动力路径 6.1装备基地级维修PPP采购共生系统动力路径总体设计 6.1.1理论依据 6.1.2总体目标 6.1.3指导原则 6.1.4设计思路 6.2装备基地级维修PPP采购共生系统源动力生成路径设计 6.2.1共生对象遴选机制设计 6.2.2共生界面生成机制设计 6.2.3共生方式选择机制设计 6.2.4共生能量分配机制设计 6.3装备基地级维修PPP采购共生系统驱动力驱动路径设计 6.3.1共生效用评价机制设计 6.3.2共生奖励激励机制设计 6.3.3共生制度保障机制设计附录附录1缩略语附录2装备基地级维修PPP采购共生对象遴选评价指标重要性评判表附录3装备基地级维修PPP采购共生效用评价指标评分调查问卷参考文献 Contents Chapter 1Introduction 1.1Basic Concepts 1.1.1Service and Service Procurement 1.1.2Military Equipment Depot-level Maintenance and Military Equipment Depot-level Maintenance Procurement 1.1.3PPP Mode and PPP Procurement of Military Equipment Depot-level Maintenance 1.1.4Symbiotic Ecosystem and PPP Procurement Symbiotic Ecosystem of Military Equipment Depot-level Maintenance 1.1.5Dynamic Mechanism and Dynamic Mechanism for PPP Procurement Symbiotic Ecosystem of Military Equipment Depot-level Maintenance 1.2The Realistic Motivation for PPP Procurement of Military Equipment Depot-level Maintenanc 1.2.1Military Motivation 1.2.2Economic Motivation 1.2.3Social Motivation 1.3The US Army’s Development Path of PPP Procurement of Military Equipment Depot-level Maintenance 1.3.1Research and Exploration Stage（1990—2001） 1.3.2Preliminary Implementation Stage（2002—2006） 1.3.3Full Development Stage（2007 to Present） 1.4Basic Situation of PPP Procurement of Military Equipment Depot-level Maintenance faced by the PLA 1.4.1Strengths 1.4.2Weaknesses 1.4.3Opportunities 1.4.4Threats 1.5Experience and Enlightenment of the US Army’s PPP Procurement of Military Equipment Depot-level Maintenance 1.5.1Experience of the US Army’s PPP Procurement of Military Equipment Depot-level Maintenance 1.5.2Enlightenment of the US Army’s PPP Procurement of Military Equipment Depot-level Maintenance Chapter 2The Theory of PPP Procurement of Military Equipment Depot-level Maintenance2.1Basic Mode of Procurement of Military Equipment Depot-level Maintenance 2.1.1Type Division 2.1.2Scope of Application 2.1.3Methods of Choosing 2.2Economic Analysis of the Basic Mode of Procurement of Military Equipment Depot-level Maintenance 2.2.1Conditional Assumption 2.2.2Model Establishment 2.2.3Model Analysis 2.2.4Basic Conclusion 2.3PPP Procurement System of Military Equipment Depot-level Maintenance 2.3.1Components 2.3.2Structures 2.3.3Features 2.4PPP Procurement System of Military Equipment Depot-level Maintenance Operation 2.4.1Operational Structures 2.4.2Modes of Operation 2.4.3Operational Process 2.5The Symbiosis Essence of PPP Procurement System of Military Equipment Depot-level Maintenance 2.5.1Satisfy the General Conditions of Symbiosis 2.5.2Have the Symbiotic Characteristics 2.5.3Reflecting the Nature of Symbiosis Chapter 3PPP Procurement Symbiotic Ecosystem of Military Equipment Depot-level Maintenance3.1Composition of PPP Procurement Symbiotic Ecosystem of Military Equipment Depot-level Maintenance 3.1.1Symbiotic Element 3.1.2Symbiotic Condition 3.1.3Symbiotic Energy 3.2Structure of PPP Procurement Symbiotic Ecosystem of Military Equipment Depot-level Maintenance 3.2.1Symbiont 3.2.2Symbiotic Environment 3.2.3Logic Relationship 3.3Characteristics of PPP Procurement Symbiotic Ecosystem of Military Equipment Depot-level Maintenance 3.3.1Complexity 3.3.2Openness 3.3.3Dynamic 3.3.4Self-organizing 3.3.5Synergistic Evolution 3.4Function of PPP Procurement Symbiotic Ecosystem of Military Equipment Depot-level Maintenance 3.4.1Resource Integration 3.4.2Risk Reduction 3.4.3Technology Absorption 3.4.4Information Sharing 3.4.5Environmental Adaptation 3.4.6Demonstration Guide 3.5Status of PPP Procurement Symbiotic Ecosystem of Military Equipment Depot-level Maintenance 3.5.1Symbiotic Mode 3.5.2Symbiotic State Chapter 4Dynamic Factors of PPP Procurement Symbiotic Ecosystem of Military Equipment Depot-level Maintenance4.1Symbiont Source Power for PPP Procurement Symbiotic Ecosystem of Military Equipment Depot-level Maintenance 4.1.1Main Force of the Symbiotic Unit 4.1.2Auxiliary Power of the Symbiotic Interface ⅩⅧ4.2Symbiotic Environment Driving Force for PPP Procurement Symbiotic Ecosystem of Military Equipment Depot-level Maintenance 4.2.1Driven by Maintenance Demand Surges in the Military Environment 4.2.2Driven by Policies and Regulations in the Policy Environment 4.2.3Driven by Development of Service Economy in the Market Environment 4.2.4Driven by Social Governance Changes in the Social Environment 4.2.5Driven by Science and Technology Innovation in the Science and Technology Environment 4.3Dynamic System of PPP Procurement Symbiotic Ecosystem of Military Equipment Depot-level Maintenance 4.3.1Dynamic System Structure 4.3.2Dynamic System Model 4.3.3Dynamic System Synthesis 4.4Dynamic Characteristics of PPP Procurement Symbiotic Ecosystem of the Military Equipment Depot-level Maintenance 4.4.1Interest-driven 4.4.2Internal and External Conversion 4.4.3Interactive Multiplication 4.4.4Excitation Catalysis 4.4.5Social Responsibility Chapter 5Dynamic Mechanism of PPP Procurement Symbiotic Ecosystem of Military Equipment Depot-level Maintenance5.1Basic Connotation of the Evolution of PPP Procurement Symbiotic Ecosystem of Military Equipment Depot-level Maintenance 5.1.1Evolution Concept 5.1.2Evolutionary Hierarchy 5.2Basic Law of the Evolution of PPP Procurement Symbiotic Ecosystem of Military Equipment Depot-level Maintenance 5.2.1Micro Level: the Evolution Law of “Internal Symbiosis” 5.2.2Middle Level: the Evolution Law of “External Symbiosis” 5.2.3Macro Level: the Self-coupling Law of “Double Symbiosis” ⅩⅨ5.3Single Life Cycle Evolution Dynamic Mechanism of PPP Procurement Symbiotic Ecosystem of Military Equipment Depot-level Maintenance 5.3.1Single Life Cycle Evolution Process and Its Dynamic Model Construction 5.3.2Single Life Cycle Dynamics Model Analysis and Its Dynamic Mechanism 5.4Whole Life Cycle Evolution Dynamic Mechanism of PPP Procurement Symbiotic Ecosystem of the Military Equipment Depot-level Maintenance 5.4.1Whole Life Cycle Evolution Process and Its Dynamic Model Construction 5.4.2Whole Life Cycle Dynamics Model Analysis and Its Dynamic Mechanism 5.5Mechanism of Evolutionary Dynamics of PPP Procurement Symbiotic Ecosystem of Military Equipment Depot-level Maintenance 5.5.1Logic Analysis of the Principle System of Driving Force and Source Power(Double-force) Self-Coupling Mechanism 5.5.2Symbiosis Energy Generation Principle of Power Double-force Self-Coupling Mechanism 5.5.3Source Dynamic Generation Mechanism Based on the Principle of Mass Parameter Compatibility and Symbiotic Interface Selection 5.5.4Driving Force Mechanism Based on Phase Transition Principle of Symbiotic System and Evolutionary Principle of Symbiotic System Chapter 6PPP Procurement Symbiotic Ecosystem Power Path of Military Equipment Depot-level Maintenance6.1Overall Design of PPP Procurement Symbiotic Ecosystem Power Path of the Military Equipment Depot-level Maintenance 6.1.1Theoretical Basis 6.1.2Overall Objective 6.1.3Guiding Principles 6.1.4Design Ideas 6.2Design of Source Power Generation Path for PPP Procurement Symbiotic Ecosystem of Military Equipment Depot-level Maintenance 6.2.1Design of Symbiotic Object Selection Mechanism 6.2.2Design of Symbiotic Interface Generation Mechanism 6.2.3Design of Symbiotic Mode Selection Mechanism 6.2.4Design of Symbiotic Energy Distribution Mechanism 6.3Design of Driving Path for PPP Procurement Symbiotic Ecosystem of Military Equipment Depot-level Maintenance 6.3.1Design of Symbiotic Utility Evaluation Mechanism 6.3.2Design of Symbiosis Reward Incentive Mechanism 6.3.3Design of Symbiotic Regulations Guarantee Mechanism Appendixes Appendix 1Abbreviations Appendix 2Symbiotic Object Selection Evaluation Index Importance Evaluation Form for PPP Procurement of Military Equipment Depot-level Maintenance Appendix 3Utility Evaluation Index Questionnaire for PPP Procurement of Military Equipment Depot-level Maintenance Symbiotic References\\\"