Univariate Time Series in Geosciences [electronic resource] : Theory and Examples / by Hans Gilgen.
Gilgen, Hans.| Call Number | 550 526.1 |
| Author | Gilgen, Hans. author. |
| Title | Univariate Time Series in Geosciences Theory and Examples / by Hans Gilgen. |
| Physical Description | XVIII, 718 p. 220 illus. online resource. |
| Contents | Stationary Stochastic Processes -- Linear Models for the Expectation Function -- Interpolation -- Linear Processes -- Fourier Transforms of Deterministic Functions -- Fourier Representation of a Stationary Stochastic Process -- Does a Periodogram Estimate a Spectrum? -- Estimators for a Continuous Spectrum -- Estimators for a Spectrum Having a Discrete Part. |
| Summary | The author introduces the statistical analysis of geophysical time series. The book includes also a chapter with an introduction to geostatistics, many examples and exercises which help the reader to work with typical problems. More complex derivations are provided in appendix-like supplements to each chapter. Readers are assumed to have a basic grounding in statistics and analysis. The reader is invited to learn actively from genuine geophysical data. He has to consider the applicability of statistical methods, to propose, estimate, evaluate and compare statistical models, and to draw conclusions. The author focuses on the conceptual understanding. The example time series and the exercises lead the reader to explore the meaning of concepts such as the estimation of the linear time series (AMRA) models or spectra. This book is also a guide to using "R" for the statistical analysis of time series. "R" is a powerful environment for the statistical and graphical analysis of data."R" is available under GNU conditions. |
| Added Author | SpringerLink (Online service) |
| Subject | EARTH SCIENCES. GEOPHYSICS. Atmospheric sciences. COMPUTER SIMULATION. PHYSICS. Earth Sciences. Geophysics/Geodesy. Earth Sciences, general. Atmospheric Sciences. Simulation and Modeling. Numerical and Computational Physics. Environmental Monitoring/Analysis. |
| Multimedia |
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| Summary | The author introduces the statistical analysis of geophysical time series. The book includes also a chapter with an introduction to geostatistics, many examples and exercises which help the reader to work with typical problems. More complex derivations are provided in appendix-like supplements to each chapter. Readers are assumed to have a basic grounding in statistics and analysis. The reader is invited to learn actively from genuine geophysical data. He has to consider the applicability of statistical methods, to propose, estimate, evaluate and compare statistical models, and to draw conclusions. The author focuses on the conceptual understanding. The example time series and the exercises lead the reader to explore the meaning of concepts such as the estimation of the linear time series (AMRA) models or spectra. This book is also a guide to using "R" for the statistical analysis of time series. "R" is a powerful environment for the statistical and graphical analysis of data."R" is available under GNU conditions. |
| Contents | Stationary Stochastic Processes -- Linear Models for the Expectation Function -- Interpolation -- Linear Processes -- Fourier Transforms of Deterministic Functions -- Fourier Representation of a Stationary Stochastic Process -- Does a Periodogram Estimate a Spectrum? -- Estimators for a Continuous Spectrum -- Estimators for a Spectrum Having a Discrete Part. |
| Subject | EARTH SCIENCES. GEOPHYSICS. Atmospheric sciences. COMPUTER SIMULATION. PHYSICS. Earth Sciences. Geophysics/Geodesy. Earth Sciences, general. Atmospheric Sciences. Simulation and Modeling. Numerical and Computational Physics. Environmental Monitoring/Analysis. |
| Multimedia |