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Entrepreneurship and economic growth in China [[electronic resource] /] / editors Ting Zhang, Roger R. Stough
| Entrepreneurship and economic growth in China [[electronic resource] /] / editors Ting Zhang, Roger R. Stough |
| Pubbl/distr/stampa | Singapore ; ; London, : World Scientific, 2013 |
| Descrizione fisica | 1 online resource (358 p.) |
| Disciplina | 338.040951 |
| Altri autori (Persone) |
ZhangTing
StoughRoger |
| Soggetto topico | Entrepreneurship - China |
| Soggetto genere / forma | Electronic books. |
| ISBN |
1-283-97148-8
981-4273-37-6 |
| Formato | Materiale a stampa  |
| Livello bibliografico | Monografia |
| Lingua di pubblicazione | eng |
| Nota di contenuto |
Contents; Editors' Note; About the Editors; List of Contributors; List of Figures and Tables; Part I Introduction and Historical Background; Chapter 1 Introduction Ting Zhang, Roger R. Stough, and Chunpu Song; 1.1. Introduction; 1.2. Structure of the Book and Content Summaries of the Chapters; 1.3. Policy Implications; References; Chapter 2 History and Development of Entrepreneurship in China Huaqun Li; 2.1. Introduction; 2.2. The Stage of Market Transitions: Opportunities and Challenges for Entrepreneurship; 2.2.1. From 1978 to 1992; 2.2.1.1. The emergence and rise of TVEs
2.2.1.2. The emergence of private enterprise2.2.2. From 1992 to 2000; 2.2.3. From 2000 to Present; 2.3. Chinese Characteristics in Entrepreneurship; 2.3.1. Disguised Entrepreneurship: Red Hat Strategy; 2.3.2. Regional Variation of China's Entrepreneurship; 2.3.3. Changing Entrepreneurship: From Network-Based to Innovation-Based; 2.4. Conclusion; References; Part II Theoretical Framework; Chapter 3 Jaffe-Feldman-Varga: The Search for Knowledge Spillovers Zoltán J. Ács; 3.1. Introduction; 3.2. Jaffe-Feldman-Varga; 3.3. Extensions of the JFV Model 3.4. The "Spatialized" Explanation of Economic Growth 3.5. A Knowledge Spillover Theory of Entrepreneurship; 3.6. Agglomeration: The Case of China; 3.7. Public Policy; 3.8. Conclusions; References; APPENDIX; Part III Economic Impact of Entrepreneurship, Innovation, and Technology; Chapter 4 Factor Accumulation or TFP: How does Entrepreneurship Empirically Account for Economic Growth? Junbo Yu; 4.1. Rationale of the Debate: Capital Accumulation versus TFP; 4.2. Entrepreneurship in the Capital Accumulation Approach; 4.3. Entrepreneurship in the TFP Approach; 4.4. Problematic Methodology 4.5. An Attempt to Revise along the TFP Approach4.6. An Empirical Test with the Case of China (1996-2004); 4.7. Crucial Facts and Hypotheses; 4.8. Methodologies and Empirical Results; 4.9. Concluding Remarks; Appendix; Panel Data Stationary Test and Co-integration Test; Stationary test; Co-integration test; References; Chapter 5 Regional Economic Growth and Telecommunications Infrastructure in China Yanchun Liu; 5.1. Regional Economic Development in China; 5.2. Development of China's Telecommunications Infrastructure; 5.3. Summary; References Part IV Financial Environment of Entrepreneurship in China Chapter 6 Entrepreneurship Financing - Innofund Emily Xiaoxia Wang; 6.1. Theoretical and International Context; 6.2. China Context; 6.2.1. Establishment and Operation of Innofund; 6.3. Performance of Innofund; 6.3.1. Innofund's Direct Financing of TSMEs; 6.3.2. Catalyzing Other Funds to TSMEs; 6.3.3. External Factors Affecting Innofund Awards; 6.3.4. Innofund's Contribution to the Capital Market Development for TSMEs; 6.4. Conclusion; References Chapter 7 Entrepreneurial Financing, Corporate Governance, and Firm Performance in China: With Evidence of Listed Companies on the Shenzhen Stock Exchange Jiamin Wang |
| Record Nr. | UNINA-9910463997003321 |
| Singapore ; ; London, : World Scientific, 2013 | ||
| Materiale a stampa | ||
| Lo trovi qui: Univ. Federico II | ||
| ||
Entrepreneurship and economic growth in China [[electronic resource] /] / editors Ting Zhang, Roger R. Stough
| Entrepreneurship and economic growth in China [[electronic resource] /] / editors Ting Zhang, Roger R. Stough |
| Pubbl/distr/stampa | Singapore ; ; London, : World Scientific, 2013 |
| Descrizione fisica | 1 online resource (358 p.) |
| Disciplina | 338.040951 |
| Altri autori (Persone) |
ZhangTing
StoughRoger |
| Soggetto topico | Entrepreneurship - China |
| ISBN |
1-283-97148-8
981-4273-37-6 |
| Formato | Materiale a stampa |
| Livello bibliografico | Monografia |
| Lingua di pubblicazione | eng |
| Nota di contenuto |
Contents; Editors' Note; About the Editors; List of Contributors; List of Figures and Tables; Part I Introduction and Historical Background; Chapter 1 Introduction Ting Zhang, Roger R. Stough, and Chunpu Song; 1.1. Introduction; 1.2. Structure of the Book and Content Summaries of the Chapters; 1.3. Policy Implications; References; Chapter 2 History and Development of Entrepreneurship in China Huaqun Li; 2.1. Introduction; 2.2. The Stage of Market Transitions: Opportunities and Challenges for Entrepreneurship; 2.2.1. From 1978 to 1992; 2.2.1.1. The emergence and rise of TVEs
2.2.1.2. The emergence of private enterprise2.2.2. From 1992 to 2000; 2.2.3. From 2000 to Present; 2.3. Chinese Characteristics in Entrepreneurship; 2.3.1. Disguised Entrepreneurship: Red Hat Strategy; 2.3.2. Regional Variation of China's Entrepreneurship; 2.3.3. Changing Entrepreneurship: From Network-Based to Innovation-Based; 2.4. Conclusion; References; Part II Theoretical Framework; Chapter 3 Jaffe-Feldman-Varga: The Search for Knowledge Spillovers Zoltán J. Ács; 3.1. Introduction; 3.2. Jaffe-Feldman-Varga; 3.3. Extensions of the JFV Model 3.4. The "Spatialized" Explanation of Economic Growth 3.5. A Knowledge Spillover Theory of Entrepreneurship; 3.6. Agglomeration: The Case of China; 3.7. Public Policy; 3.8. Conclusions; References; APPENDIX; Part III Economic Impact of Entrepreneurship, Innovation, and Technology; Chapter 4 Factor Accumulation or TFP: How does Entrepreneurship Empirically Account for Economic Growth? Junbo Yu; 4.1. Rationale of the Debate: Capital Accumulation versus TFP; 4.2. Entrepreneurship in the Capital Accumulation Approach; 4.3. Entrepreneurship in the TFP Approach; 4.4. Problematic Methodology 4.5. An Attempt to Revise along the TFP Approach4.6. An Empirical Test with the Case of China (1996-2004); 4.7. Crucial Facts and Hypotheses; 4.8. Methodologies and Empirical Results; 4.9. Concluding Remarks; Appendix; Panel Data Stationary Test and Co-integration Test; Stationary test; Co-integration test; References; Chapter 5 Regional Economic Growth and Telecommunications Infrastructure in China Yanchun Liu; 5.1. Regional Economic Development in China; 5.2. Development of China's Telecommunications Infrastructure; 5.3. Summary; References Part IV Financial Environment of Entrepreneurship in China Chapter 6 Entrepreneurship Financing - Innofund Emily Xiaoxia Wang; 6.1. Theoretical and International Context; 6.2. China Context; 6.2.1. Establishment and Operation of Innofund; 6.3. Performance of Innofund; 6.3.1. Innofund's Direct Financing of TSMEs; 6.3.2. Catalyzing Other Funds to TSMEs; 6.3.3. External Factors Affecting Innofund Awards; 6.3.4. Innofund's Contribution to the Capital Market Development for TSMEs; 6.4. Conclusion; References Chapter 7 Entrepreneurial Financing, Corporate Governance, and Firm Performance in China: With Evidence of Listed Companies on the Shenzhen Stock Exchange Jiamin Wang |
| Record Nr. | UNINA-9910788620003321 |
| Singapore ; ; London, : World Scientific, 2013 | ||
| Materiale a stampa | ||
| Lo trovi qui: Univ. Federico II | ||
| ||
Frontiers in Healthy Cities : Policy Impacts and Inclusive Governance
| Frontiers in Healthy Cities : Policy Impacts and Inclusive Governance |
| Autore | Chen Jie |
| Pubbl/distr/stampa | Basel, : MDPI - Multidisciplinary Digital Publishing Institute, 2022 |
| Descrizione fisica | 1 electronic resource (728 p.) |
| Soggetto topico |
Humanities
Social interaction |
| Soggetto non controllato |
urban sprawl
physical health mental health Smog Free Tower air purification housing price moderating effect traffic convenience urban resilience spatiotemporal differentiation ESDA geographical detector model YRB social capital social participation volunteering urban China urban governance Chinese national scenic areas tourism economy time-limited rectification pilot free trade zones green total factor productivity green development difference-in-differences quasi-natural experiment land use evolution land ecological security AHP-FCE model evaluation China business environment FDI BRI countries status elevation the global value chain pilot free trade zone port green TFP environmental constraints regional heterogeneity air pollution health shocks labor mobility mediating effect threshold effect production-living-ecology spatial transformation characteristics spatial conflicts urban agglomeration carbon emissions Tapio decoupling LMDI model provincial level low-carbon economy physical inactivity prolonged sitting unhealthy diet sports facilities street greenery spatial accessibility medical system multi-tiered two-step floating catchment area (MT2SFCA) method equity healthcare Hu Line of land “production-living-ecology” coordination spatial heterogeneity ESDA-GWR COVID-19 mask willingness to pay protection motivation theory contingent value method urban health impact assessment bibliometric analysis CiteSpace knowledge mapping disaster-preventive migration (DPM) social stability risk fuzzy comprehensive evaluation (FCE) ethnic minority area green finance ecological environment coupling coordination rate spatiotemporal evolution driving factor environmental equality guanxi network pig farming pollution cost and benefit sharing technological innovation coupling coordination green economy aging migration housing tenure social integration Beijing environmental pollution control investment efficiency three-stage DEA super-efficient SBM Global-Malmquist-Luenberger index regional differences digital financial inclusion green innovation financing constraints life cycle carbon emissions trading total factor productivity of agricultural enterprises double difference policy mix policy design pandemic management policy outcomes compound crisis urban sustainability healthy cities projects risks expert evaluation fuzzy sets European Green Deal Industry 5.0 decision-making transport medical infrastructure healing and therapeutic design blockchain building information modeling (BIM) landscape information modeling (LIM) city information modeling (CIM) art therapy sustainable development non-fungible token (NFT) Health Metaverse workplace avoidance behavior public health regression discontinuity design migration intention high human capital instrumental variable regional economic resilience influence mechanism Yellow River Basin quality of life healthy region healthy environment spatial synthetic measure voivodship national fitness policy national health human capital public finance health expenditures civil registration block chain digitization governance smart contract urban young returnees happiness healthy China HLM SEM rural-to-urban migrant performance analysis science mapping network analysis environmental policy uncertainty enterprise pollution emission enterprise innovation the foreign investment |
| ISBN | 3-0365-6022-X |
| Formato | Materiale a stampa |
| Livello bibliografico | Monografia |
| Lingua di pubblicazione | eng |
| Altri titoli varianti | Frontiers in Healthy Cities |
| Record Nr. | UNINA-9910640000403321 |
Chen Jie
|
||
| Basel, : MDPI - Multidisciplinary Digital Publishing Institute, 2022 | ||
| Materiale a stampa | ||
| Lo trovi qui: Univ. Federico II | ||
| ||
Telemetry theory and methods in flight test / / Tingwu Yang ; translated by Yufeng Yang, Ting Zhang
| Telemetry theory and methods in flight test / / Tingwu Yang ; translated by Yufeng Yang, Ting Zhang |
| Autore | Yang Tingwu |
| Pubbl/distr/stampa | Gateway East, Singapore : , : Springer, , [2021] |
| Descrizione fisica | 1 online resource (475 pages) |
| Disciplina | 621.379 |
| Soggetto topico | Aerospace telemetry |
| ISBN | 981-334-737-6 |
| Formato | Materiale a stampa |
| Livello bibliografico | Monografia |
| Lingua di pubblicazione | eng |
| Nota di contenuto |
Intro -- Preface -- Brief Introduction of the Content -- Terms and Definitions -- 1 Equipment Terms -- 2 Telemetry Terms -- 3 Data Processing Terms -- 4 Terms About Measurement Error and Uncertainty -- Contents -- 1 Overview -- 1.1 Introduction -- 1.2 Aeronautical Flight Test -- 1.3 Measurement During Aeronautical Test Flight -- 1.4 Flight Test Telemetry -- 1.4.1 Basic Concepts -- 1.4.2 Function -- 1.4.3 Characteristics -- 1.4.4 Main Equipment Used for Flight Test Telemetry -- 1.4.5 General Operating Procedure of Flight Test Telemetry -- References -- 2 Basic Theory of Flight Test Telemetry -- 2.1 Signals and Noises -- 2.1.1 Signals [1, 2] -- 2.1.2 Method of System Response Analysis -- 2.1.3 Random Process -- 2.1.4 System Transmission Characteristics -- 2.1.5 Noises -- 2.2 Analysis of Time-Domain Discrete Signals [3, 4] -- 2.2.1 Time-Domain Discrete Signals -- 2.2.2 Time-Domain Discrete System -- 2.2.3 Linear Constant-Coefficient Differential Equations -- 2.2.4 Fourier-Series Transform of Sequence -- 2.2.5 Z-Series Transform -- 2.2.6 Discrete Fourier Transform -- 2.2.7 Fast Fourier Transform and Inverse Transformation -- 2.2.8 Wavelet [5, 6] -- 2.3 Parameter Estimation -- 2.3.1 Least-Squared Estimation [8, 9] -- 2.3.2 Maximum Likelihood Estimation -- 2.3.3 Optimization Algorithm Without Restraint [11, 12] -- 2.4 Fuzzy Mathematic Theory [9, 13] -- 2.4.1 Basic Concepts of Fuzzy Mathematics and Comprehensive Evaluation -- 2.4.2 Fuzzy Set and Its Computation -- 2.4.3 Fuzzy Relation and Its Operation -- 2.5 Error and Error Propagation Law -- 2.5.1 Test Error -- 2.5.2 Statistic Characteristics of Random Errors -- 2.5.3 Precision Index -- 2.5.4 Generalized Error Propagation Law -- 2.5.5 System Error Index -- 2.5.6 Correlations of Terms Related to Degree of Test Precision -- References -- 3 Aviation Sensors and Their Calibration.
3.1 Introduction to Sensors -- 3.1.1 Definition of Sensors -- 3.1.2 Characteristics of Sensors [3] -- 3.1.3 Static Characteristics of Sensors [3] -- 3.1.4 Dynamic Characteristics of Sensors -- 3.2 Airborne Sensors -- 3.2.1 Altitude Sensor and Speed Sensor -- 3.2.2 Pressure Sensor -- 3.2.3 Force Sensors -- 3.2.4 Linear Acceleration Sensor -- 3.2.5 Angular Speed Sensors -- 3.2.6 Aircraft Attitude and Heading Sensor -- 3.2.7 AOA and SSA Sensors -- 3.2.8 Displacement Sensor -- 3.2.9 Temperature Sensor -- 3.2.10 Flow Sensor -- 3.2.11 Sensors Measuring Aircraft Power Characteristics -- 3.2.12 Vibrating Sensors -- 3.2.13 Other Sensors (Systems) -- 3.2.14 How to Choose a Sensor -- 3.3 Sensor Calibration -- 3.3.1 Types of Sensor Calibration -- 3.3.2 Non-Linear Regression Calibration Model -- 3.3.3 Neural Network Calibration Model [8] -- 3.3.4 Calibration Model of Inertial Navigation System [9] -- 3.4 New Types of Sensors -- 3.4.1 Smart Sensors [10] -- 3.4.2 New Principle Sensors -- 3.4.3 Sensors Using New Technologies -- References -- 4 Airborne Data Acquisition and Recording -- 4.1 Overview -- 4.1.1 Types of Airborne Data -- 4.1.2 Primary Performance and Structure of the Data Acquisition System -- 4.2 Signal Conditioning and Filtering -- 4.2.1 Signal Conditioning -- 4.2.2 Signal Filtering -- 4.3 Synchronous Sampling -- 4.3.1 Sampling, Quantizing, and Encoding -- 4.3.2 Multichannel Synchronous Sampling -- 4.3.3 PCM Data Frames -- 4.4 Data Acquisition -- 4.4.1 PCM Data Acquisition -- 4.4.2 Network Data Acquisition -- 4.4.3 Comparison -- 4.5 Data Transmission -- 4.5.1 Time-Division Multiplexing (TDM) -- 4.5.2 Wavelength Division Multiplexing (WDM) -- 4.6 Data Recording -- 4.6.1 Data Recording Types -- 4.6.2 Airborne Solid State Recorder -- 4.7 Network Performance -- 4.7.1 Methods for Detecting Network Performance -- 4.7.2 Performance Detection Indexes. 4.8 Wireless Sensor Network -- 4.8.1 Concept of Wireless Sensor Network -- 4.8.2 Wireless Sensor Network Architecture -- 4.8.3 Wireless Network Properties -- 4.8.4 The Wireless Sensor Data Acquisition Network -- References -- 5 Telemetry Information Transmission -- 5.1 Wireless Channel -- 5.1.1 Relevant Terms and Their Relations -- 5.1.2 Influence of Earth Curvature on Visibility Distance -- 5.1.3 Transmission Loss of Radio Wave -- 5.2 Signal Modulation [2] -- 5.2.1 Modulation Methods -- 5.2.2 Analog Modulation -- 5.2.3 Digital Modulation -- 5.2.4 SOQPSK Modulation -- 5.2.5 OFDM Modulation -- 5.3 Multichannel Transmission -- 5.3.1 Introduction -- 5.3.2 Frequency-Division Multiplexing -- 5.3.3 Time-Division Multiplexing -- 5.3.4 Code-Division Multiplexing -- 5.3.5 Characteristics of Multichannel Transmission -- 5.3.6 Multi-carrier OFDM/TDMA Transmission -- 5.3.7 Single Carrier OFDM/TDMA Transmission -- 5.4 Transmitting and Receiving -- 5.4.1 Channel Coding -- 5.4.2 Source Coding -- 5.4.3 PCM Data Transmitting and Receiving System [12] -- 5.5 Security of Transmission Link -- 5.5.1 AES Algorithm -- 5.5.2 Hierarchical Protection -- References -- 6 Telemetry Data Processing and Analysis -- 6.1 Telemetry Data Pre-processing -- 6.1.1 Gross Error Filtering Algorithm -- 6.1.2 Gross Error Group Point Filtering Algorithm -- 6.1.3 Interpolation -- 6.1.4 Spline Function -- 6.1.5 Curve Fitting and Smoothing -- 6.2 Solving Algorithm of Non-linear Equation -- 6.2.1 Directly Solving Quadratic, Cubic, and Quartic Equations -- 6.2.2 Newton Solution for Transcendental Equations -- 6.2.3 Numerical Integration and Numerical Differentiation -- 6.3 Vibration Signal Analysis Based on Fourier Transform [3] -- 6.3.1 Introduction -- 6.3.2 Fourier Transform -- 6.3.3 Vibration Characteristics Analysis Method [5] -- 6.3.4 Vibration Data Analysis. 6.4 Flutter Test Data Analysis Based on Wavelet [7] -- 6.4.1 Introduction -- 6.4.2 Multidimensional Laplace Wavelet [12, 13] -- 6.4.3 Numerical Emulation -- 6.4.4 Applications of Two-Dimensional Laplace Wavelet -- 6.4.5 Analysis of Flight Test Flutter Data -- 6.5 Flight Test Safety Monitoring -- 6.5.1 Data Processing in Real Time -- 6.5.2 Safety Monitoring in Real Time -- 6.6 Analysis of Measurement Uncertainty -- 6.6.1 Calculation Error -- 6.6.2 Measurement Uncertainty [14, 15] -- References -- 7 Test Data Management and Data Mining -- 7.1 Flight Test Data Management [1] -- 7.1.1 Characteristics of Flight Test Data -- 7.1.2 Service-Oriented Architecture (SOA) [2-4] -- 7.1.3 SOA-Based FTDMS [5] -- 7.1.4 Distributed Test Data System -- 7.2 Data Warehouse and Data Mining -- 7.2.1 Introduction to Data Warehouse -- 7.2.2 Structure and Characteristics of Data Warehouse -- 7.2.3 Data Mining -- 7.2.4 Clustering Reduction Method of Flight Test Data [11] -- 7.2.5 Fuzzy Comprehensive Evaluation Method of Flight Test Data -- 7.2.6 Visualization Data Mining Method -- 7.3 Application of Big Data and Cloud Technology [19, 20] -- 7.3.1 Proposing of Problems -- 7.3.2 Basic Concept of Cloud Computing -- 7.3.3 Cloud Computing in Flight Test -- 7.3.4 Development Trend -- References -- 8 Integrated Space-Ground Telemetry Network -- 8.1 Military Test Research Plan of U.S. DOD -- 8.1.1 Overview of Test Investment Plan -- 8.1.2 Test Integration Architecture -- 8.1.3 Basic Initiatives 2010 -- 8.1.4 Comprehensive National Cybersecurity Initiative -- 8.2 Integrated Telemetry Network -- 8.2.1 Introduction -- 8.2.2 Telemetry Networking Trend [8] -- 8.2.3 Network Architecture [9] -- 8.2.4 Real-Time Ethernet Transmission Protocol [9] -- 8.2.5 Time Synchronization -- 8.2.6 Network Data Packages -- 8.3 Prospect to Space-Ground Integrated Telemetry Network -- 8.3.1 System Structure. 8.3.2 Telemetry Network System -- 8.3.3 Networking of Telemetry System -- 8.3.4 Network System Management -- 8.4 Summary -- References -- Appendix A Time System -- A.1 Significance of Time System -- A.2 Concepts About Time System -- A.2.1 Universal Time System -- A.2.2 Atomic Time System -- A.2.3 Dynamical Time System -- A.2.4 GPS Time System -- A.2.4.1 Definition -- A.2.4.2 Relation Between GPST and Beijing Time System -- A.2.5 GLONASS Time System -- A.2.6 BDS Time System -- A.2.6.1 Relationship Between BDST and Beijing Time System -- A.2.6.2 BDS Positioning Function -- Appendix B Telemetry Standards -- B.1 IRIG106 Telemetry Standard -- B.1.1 IRIG106-07 Telemetry Standard -- B.1.2 IRIG106-09 Telemetry Standard -- B.1.2.1 IRIG106-09 Telemetry Standard (Part I) -- B.1.2.2 IRIG106-09 Telemetry Standard (Part II) -- B.2 China's Telemetry Standards -- B.3 Integrated Network Enhanced Telemetry (iNET) Standard -- B.3.1 Brief Introduction of iNET Standard -- B.3.2 Test Article (TA) Standard -- B.3.3 RF Network Element (RFNE) Standard -- B.3.4 Communication Link (CL) Standard -- B.3.5 Component Interface (CI) Standard -- B.3.6 System Management (SM) Standard -- B.3.7 Metadata (MD) Standard. |
| Record Nr. | UNINA-9910483666403321 |
|
Yang Tingwu
|
||
| Gateway East, Singapore : , : Springer, , [2021] | ||
| Materiale a stampa | ||
| Lo trovi qui: Univ. Federico II | ||
| ||