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Phil C. Gregory Bayesian Logical Data Analysis for the Physical Sciences

Bayesian Logical Data Analysis for the Physical Sciences

A Comparative Approach with Mathematica® Support

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Phil C. Gregory

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488 stránek
18 hodin čtení

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Bayesian inference provides a simple and unified approach to data analysis, allowing experimenters to assign probabilities to competing hypotheses of interest, on the basis of the current state of knowledge. By incorporating relevant prior information, it can sometimes improve model parameter estimates by many orders of magnitude. This book provides a clear exposition of the underlying concepts with many worked examples and problem sets. It also discusses implementation, including an introduction to Markov chain Monte-Carlo integration and linear and nonlinear model fitting. Particularly extensive coverage of spectral analysis (detecting and measuring periodic signals) includes a self-contained introduction to Fourier and discrete Fourier methods. There is a chapter devoted to Bayesian inference with Poisson sampling, and three chapters on frequentist methods help to bridge the gap between the frequentist and Bayesian approaches.

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Bayesian Logical Data Analysis for the Physical Sciences, Phil C. Gregory

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Rok vydání: 2010
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Stav knihy: Poškozená
Cena: 780 Kč

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Titul: Bayesian Logical Data Analysis for the Physical Sciences
Podtitul: A Comparative Approach with Mathematica® Support
Jazyk: anglicky
Autoři: Phil C. Gregory
Vydavatel: Cambridge University Press
Rok vydání: 2010
Vazba: měkká
Počet stran: 488
ISBN10: 0521150124
ISBN13: 9780521150125
Série
Štítky: Technologie & Průmysl, Věda & Matematika, Matematika, Analýza dat
Anotace: Bayesian inference provides a simple and unified approach to data analysis, allowing experimenters to assign probabilities to competing hypotheses of interest, on the basis of the current state of knowledge. By incorporating relevant prior information, it can sometimes improve model parameter estimates by many orders of magnitude. This book provides a clear exposition of the underlying concepts with many worked examples and problem sets. It also discusses implementation, including an introduction to Markov chain Monte-Carlo integration and linear and nonlinear model fitting. Particularly extensive coverage of spectral analysis (detecting and measuring periodic signals) includes a self-contained introduction to Fourier and discrete Fourier methods. There is a chapter devoted to Bayesian inference with Poisson sampling, and three chapters on frequentist methods help to bridge the gap between the frequentist and Bayesian approaches.