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State Space Modeling of Time Series [electronic resource] /
In this book, the author adopts a state space approach to time series modeling to provide a new, computer-oriented method for building models for vector-valued time series. This second edition has been completely reorganized and rewritten. Background material leading up to the two types of estimators of the state space models is collected and presented coherently in four consecutive chapters. New, fuller descriptions are given of state space models for autoregressive models commonly used in the econometric and statistical literature. Backward innovation models are newly introduced in this edition in addition to the forward innovation models, and both are used to construct instrumental variable estimators for the model matrices. Further new items in this edition include statistical properties of the two types of estimators, more details on multiplier analysis and identification of structural models using estimated models, incorporation of exogenous signals and choice of model size. A whole new chapter is devoted to modeling of integrated, nearly integrated and co-integrated time series.
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| Main Authors: | , |
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| Format: | Texto biblioteca |
| Language: | eng |
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Berlin, Heidelberg : Springer Berlin Heidelberg : Imprint: Springer,
1990
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| Subjects: | Operations research., Decision making., Statistics., Applied mathematics., Engineering mathematics., Economic theory., Economics., Economic Theory/Quantitative Economics/Mathematical Methods., Operation Research/Decision Theory., Statistics, general., Appl.Mathematics/Computational Methods of Engineering., |
| Online Access: | http://dx.doi.org/10.1007/978-3-642-75883-6 |
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Operations research. Decision making. Statistics. Applied mathematics. Engineering mathematics. Economic theory. Economics. Economic Theory/Quantitative Economics/Mathematical Methods. Operation Research/Decision Theory. Statistics, general. Appl.Mathematics/Computational Methods of Engineering. Operations research. Decision making. Statistics. Applied mathematics. Engineering mathematics. Economic theory. Economics. Economic Theory/Quantitative Economics/Mathematical Methods. Operation Research/Decision Theory. Statistics, general. Appl.Mathematics/Computational Methods of Engineering. |
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Operations research. Decision making. Statistics. Applied mathematics. Engineering mathematics. Economic theory. Economics. Economic Theory/Quantitative Economics/Mathematical Methods. Operation Research/Decision Theory. Statistics, general. Appl.Mathematics/Computational Methods of Engineering. Operations research. Decision making. Statistics. Applied mathematics. Engineering mathematics. Economic theory. Economics. Economic Theory/Quantitative Economics/Mathematical Methods. Operation Research/Decision Theory. Statistics, general. Appl.Mathematics/Computational Methods of Engineering. Aoki, Masanao. author. SpringerLink (Online service) State Space Modeling of Time Series [electronic resource] / |
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In this book, the author adopts a state space approach to time series modeling to provide a new, computer-oriented method for building models for vector-valued time series. This second edition has been completely reorganized and rewritten. Background material leading up to the two types of estimators of the state space models is collected and presented coherently in four consecutive chapters. New, fuller descriptions are given of state space models for autoregressive models commonly used in the econometric and statistical literature. Backward innovation models are newly introduced in this edition in addition to the forward innovation models, and both are used to construct instrumental variable estimators for the model matrices. Further new items in this edition include statistical properties of the two types of estimators, more details on multiplier analysis and identification of structural models using estimated models, incorporation of exogenous signals and choice of model size. A whole new chapter is devoted to modeling of integrated, nearly integrated and co-integrated time series. |
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Texto |
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Operations research. Decision making. Statistics. Applied mathematics. Engineering mathematics. Economic theory. Economics. Economic Theory/Quantitative Economics/Mathematical Methods. Operation Research/Decision Theory. Statistics, general. Appl.Mathematics/Computational Methods of Engineering. |
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Aoki, Masanao. author. SpringerLink (Online service) |
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Aoki, Masanao. author. SpringerLink (Online service) |
| author_sort |
Aoki, Masanao. author. |
| title |
State Space Modeling of Time Series [electronic resource] / |
| title_short |
State Space Modeling of Time Series [electronic resource] / |
| title_full |
State Space Modeling of Time Series [electronic resource] / |
| title_fullStr |
State Space Modeling of Time Series [electronic resource] / |
| title_full_unstemmed |
State Space Modeling of Time Series [electronic resource] / |
| title_sort |
state space modeling of time series [electronic resource] / |
| publisher |
Berlin, Heidelberg : Springer Berlin Heidelberg : Imprint: Springer, |
| publishDate |
1990 |
| url |
http://dx.doi.org/10.1007/978-3-642-75883-6 |
| work_keys_str_mv |
AT aokimasanaoauthor statespacemodelingoftimeserieselectronicresource AT springerlinkonlineservice statespacemodelingoftimeserieselectronicresource |
| _version_ |
1756268244506771456 |
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KOHA-OAI-TEST:2064092018-07-30T23:36:20ZState Space Modeling of Time Series [electronic resource] / Aoki, Masanao. author. SpringerLink (Online service) textBerlin, Heidelberg : Springer Berlin Heidelberg : Imprint: Springer,1990.engIn this book, the author adopts a state space approach to time series modeling to provide a new, computer-oriented method for building models for vector-valued time series. This second edition has been completely reorganized and rewritten. Background material leading up to the two types of estimators of the state space models is collected and presented coherently in four consecutive chapters. New, fuller descriptions are given of state space models for autoregressive models commonly used in the econometric and statistical literature. Backward innovation models are newly introduced in this edition in addition to the forward innovation models, and both are used to construct instrumental variable estimators for the model matrices. Further new items in this edition include statistical properties of the two types of estimators, more details on multiplier analysis and identification of structural models using estimated models, incorporation of exogenous signals and choice of model size. A whole new chapter is devoted to modeling of integrated, nearly integrated and co-integrated time series.1. Introduction -- 2. The Notion of State -- 3. Data Generating Processes -- 3.1 Statistical Data Descriptions -- 3.2 Spectral Factorization -- 3.3 Decomposition of Time Series -- 3.4 Minimum-Phase Transfer Function Representation -- 4. State Space and ARMA Models -- 4.1 State Space Models -- 4.2 Conversion to State Space Representation -- 4.3 Conversion of State Space Models into ARMA Models -- 5. Properties of State Space Models -- 5.1 Observability -- 5.2 Orthogonal Projections -- 6. Hankel Matrix and Singular Value Decomposition -- 6.1 The Hankel Matrix -- 6.2 Singular Value Decomposition -- 6.3 Balanced Realization of State Space Model -- 6.4 Examples with Exact Covariance Matrices -- 6.5 Hankel Norm of a Transfer Function -- 6.6 Singular Value Decomposition in the z-Domain -- 7. Innovation Models, Riccati Equations, and Multiplier Analysis -- 7.1 Innovation Models -- 7.2 Solving Riccati Equations -- 7.3 Likelihood Functions -- 7.4 Dynamic Multiplier Analysis and Structural Model Identification -- 7.5 Out-of-Sample Forecasts -- 8. State Vectors and Optimality Measures -- 8.1 Canonical Variates -- 8.2 Prediction Error -- 8.3 Singular Values and Canonical Correlation Coefficients -- 9. Estimation of System Matrices -- 9.1 Two Classes of Estimators of System Matrices -- 9.2 Properties of Balanced Models -- 9.3 Examples with Exact Covariance Matrices -- 9.4 Numerical Examples -- 9.5 Monte Carlo Experiments -- 9.6 Model Selection -- 9.7 Incorporating Exogenous Variables -- 10. Approximate Models and Error Analysis -- 10.1 Structural Sensitivity -- 10.2 Error Norms -- 10.3 Asymptotic Error Covariance Matrices of Estimators -- 10.4 Other Statistical Aspects -- 11. Integrated Time Series -- 11.1 The Beveridge and Nelson Decomposition -- 11.2 State Space Decomposition -- 11.3 Contents of Random Walk Components -- 11.4 Cointegration, Error Correction, and Dynamic Aggregation -- 11.5 Two-Step Modeling Procedure -- 11.6 Dynamic Structure of Seasonal Components -- 11.7 Large Sample Properties -- 11.8 Drifts or Linear Deterministic Trends? -- 11.9 Regime Shifts -- 11.10 Nearly Integrated Processes -- 12. Numerical Examples -- 12.1 West Germany -- 12.2 United Kingdom -- 12.3 The United States of America -- 12.4 The US and West German Real GNP Interaction -- 12.5 The US and West German Real GNP and Unemployment Rate -- 12.6 The US and Japan Real GNP Interaction -- 12.7 The USA, West Germany, and Japan Real GNP Interaction -- 12.8 Further Examples -- Appendices -- A.1 Geometry of Weakly Stationary Stochastic Sequences -- A.2 The z-Transform -- A.3 Discrete and Continuous Time System Correspondences -- A.4 Some Useful Relations for Matrix Quadratic Forms -- A.5 Computation of Sample Covariance Matrices -- A.6 Properties of Symplectic Matrices -- A.7 Common Factors in ARMA Models -- A.8 Singular Value Decomposition Theorem -- A.9 Hankel Matrices -- A. 10 Spectral Factorization -- A.11 Time Series from Intertemporal Optimization -- A. 12 Time Series from Rational Expectations Models -- A. 13 Data Sources -- References.In this book, the author adopts a state space approach to time series modeling to provide a new, computer-oriented method for building models for vector-valued time series. This second edition has been completely reorganized and rewritten. Background material leading up to the two types of estimators of the state space models is collected and presented coherently in four consecutive chapters. New, fuller descriptions are given of state space models for autoregressive models commonly used in the econometric and statistical literature. Backward innovation models are newly introduced in this edition in addition to the forward innovation models, and both are used to construct instrumental variable estimators for the model matrices. Further new items in this edition include statistical properties of the two types of estimators, more details on multiplier analysis and identification of structural models using estimated models, incorporation of exogenous signals and choice of model size. A whole new chapter is devoted to modeling of integrated, nearly integrated and co-integrated time series.Operations research.Decision making.Statistics.Applied mathematics.Engineering mathematics.Economic theory.Economics.Economic Theory/Quantitative Economics/Mathematical Methods.Operation Research/Decision Theory.Statistics, general.Appl.Mathematics/Computational Methods of Engineering.Springer eBookshttp://dx.doi.org/10.1007/978-3-642-75883-6URN:ISBN:9783642758836 |