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Table of Contents
Intro
Preface
Contents
1 Introduction
1.1 Research Background and the Question Raised
1.1.1 Research Background
1.1.2 The Question Raised
1.2 Research Significance
1.2.1 Theoretical Significance
1.2.2 Practical Significance
1.3 Research Goal and Methodology
1.3.1 Research Goal
1.3.2 Methodology
1.4 Contents and Technical Flow Chart
1.4.1 Contents
1.4.2 Technical Flow Chart
References
2 Literature Review
2.1 R&D-Based Endogenous Growth Theory
2.1.1 First-Generation Endogenous Growth Theory
2.1.2 Semi-endogenous Growth Theory
2.1.3 Schumpeterian Growth Theory
2.2 ESTC from the Perspective of Causes
2.2.1 Exogenous ESTC
2.2.2 Semi-endogenous ESTC
2.2.3 Endogenous ESTC
2.3 ESTC Seen Through the Lenses of Different Research Methods
2.3.1 Econometric Methods
2.3.2 Index Decomposition Analysis
2.3.3 Data Envelopment Analysis
2.3.4 Computable General Equilibrium
2.3.5 Integrated Assessment Models
2.4 This Book's Perspectives
References
3 The Analytical Framework for Understanding R&D Heterogeneity-Based ESTC in Industry
3.1 Basic Concept and Characteristics
3.1.1 Energy-Saving Technological Change
3.1.2 R&D Heterogeneity
3.2 How R&D Heterogeneity Affects Endogenous ESTC in Industry
3.2.1 Effect of Substitution Related to R&D Heterogeneity
3.2.2 Effect of Increased Effective Energy Input Due to R&D Heterogeneity
3.2.3 Allocation of R&D Investment Among Different Sectors
3.3 Comparison of Analytical Frameworks
3.3.1 Comparison with the DHSS Model
3.3.2 Comparison with Frameworks for Endogenous Embodied Technological Change
3.3.3 Comparison with Frameworks for RITC in Climate Change Economics
3.3.4 Comparison with Hassler et al.'s (2012) Framework
References
4 The Mathematical Model of R&D Heterogeneity-Based Endogenous ESTC in Industry
4.1 Theoretical Arsenal
4.1.1 CES Production Function
4.2 Competitive Equilibrium Analysis
4.2.1 Description of Economic Conditions
4.2.2 Balanced Growth Path in Competitive Equilibrium
4.2.3 Comparative Statics Analysis
4.2.4 Numerical Simulation Analysis
4.3 Centrally Planned Equilibrium Analysis
4.3.1 Description of Economic Conditions
4.3.2 Balanced Growth Path in Centrally Planned Equilibrium
4.3.3 Comparative Statics Analysis
4.3.4 Numerical Simulation Analysis
4.4 Analysis of Models When Elasticity of Substitution is not 1
4.4.1 Description of Economic Conditions
4.4.2 Effect of Elasticity of Substitution on Equilibrium Rate of ESTC
4.4.3 Effect of Substitution Elasticity on Equilibrium Growth Rate
4.4.4 Numerical Simulation Analysis
4.5 Comparison of Modeling Results and Discussion
References
5 Estimation of ESTC Rates in China's Industrial Sectors: 1980-2010
5.1 Estimation Methods and Choice of Models
Preface
Contents
1 Introduction
1.1 Research Background and the Question Raised
1.1.1 Research Background
1.1.2 The Question Raised
1.2 Research Significance
1.2.1 Theoretical Significance
1.2.2 Practical Significance
1.3 Research Goal and Methodology
1.3.1 Research Goal
1.3.2 Methodology
1.4 Contents and Technical Flow Chart
1.4.1 Contents
1.4.2 Technical Flow Chart
References
2 Literature Review
2.1 R&D-Based Endogenous Growth Theory
2.1.1 First-Generation Endogenous Growth Theory
2.1.2 Semi-endogenous Growth Theory
2.1.3 Schumpeterian Growth Theory
2.2 ESTC from the Perspective of Causes
2.2.1 Exogenous ESTC
2.2.2 Semi-endogenous ESTC
2.2.3 Endogenous ESTC
2.3 ESTC Seen Through the Lenses of Different Research Methods
2.3.1 Econometric Methods
2.3.2 Index Decomposition Analysis
2.3.3 Data Envelopment Analysis
2.3.4 Computable General Equilibrium
2.3.5 Integrated Assessment Models
2.4 This Book's Perspectives
References
3 The Analytical Framework for Understanding R&D Heterogeneity-Based ESTC in Industry
3.1 Basic Concept and Characteristics
3.1.1 Energy-Saving Technological Change
3.1.2 R&D Heterogeneity
3.2 How R&D Heterogeneity Affects Endogenous ESTC in Industry
3.2.1 Effect of Substitution Related to R&D Heterogeneity
3.2.2 Effect of Increased Effective Energy Input Due to R&D Heterogeneity
3.2.3 Allocation of R&D Investment Among Different Sectors
3.3 Comparison of Analytical Frameworks
3.3.1 Comparison with the DHSS Model
3.3.2 Comparison with Frameworks for Endogenous Embodied Technological Change
3.3.3 Comparison with Frameworks for RITC in Climate Change Economics
3.3.4 Comparison with Hassler et al.'s (2012) Framework
References
4 The Mathematical Model of R&D Heterogeneity-Based Endogenous ESTC in Industry
4.1 Theoretical Arsenal
4.1.1 CES Production Function
4.2 Competitive Equilibrium Analysis
4.2.1 Description of Economic Conditions
4.2.2 Balanced Growth Path in Competitive Equilibrium
4.2.3 Comparative Statics Analysis
4.2.4 Numerical Simulation Analysis
4.3 Centrally Planned Equilibrium Analysis
4.3.1 Description of Economic Conditions
4.3.2 Balanced Growth Path in Centrally Planned Equilibrium
4.3.3 Comparative Statics Analysis
4.3.4 Numerical Simulation Analysis
4.4 Analysis of Models When Elasticity of Substitution is not 1
4.4.1 Description of Economic Conditions
4.4.2 Effect of Elasticity of Substitution on Equilibrium Rate of ESTC
4.4.3 Effect of Substitution Elasticity on Equilibrium Growth Rate
4.4.4 Numerical Simulation Analysis
4.5 Comparison of Modeling Results and Discussion
References
5 Estimation of ESTC Rates in China's Industrial Sectors: 1980-2010
5.1 Estimation Methods and Choice of Models