Semialgebraic Statistics and Latent Tree Models

Name: Semialgebraic Statistics and Latent Tree Models
Brand: Taylor & Francis Inc
SKU: 9781466576216
Price: 102.99 EUR
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Piotr Zwiernik

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A01=Piotr Zwiernik

advanced latent variable modeling

Affine Algebraic Variety

Algebraic Geometry

algebraic statistics

Author_Piotr Zwiernik

binary

Binary Random Variables

Category=PBH

Category=PBT

Category=PS

Caterpillar Tree

closure

combinatorial probability

Conditional Expectation

Developing Estimation Procedures

Discrete Exponential Families

Discrete Statistical Models

distribution

eq_bestseller

eq_isMigrated=1

eq_isMigrated=2

eq_nobargain

eq_non-fiction

eq_science

function

Gaussian graphical models

General Markov Model

geometry

Hasse Diagrams

Labeling Set

likelihood

multivariate distributions

Nonnegative Part

Partition Lattice

phylogenetic inference

probability

Probability Simplex

random

Real Algebraic Geometry

Real Algebraic Varieties

Real Analytic Manifold

Semialgebraic Set

Set Partition

simplex

tensor geometry

Tensor Product

Toric Variety

Tree Cumulants

Trivial Splits

Unlabeled Vertices

zariski

Zariski Closure

Product details

ISBN 9781466576216
Weight: 620g
Dimensions: 156 x 234mm
Publication Date: 21 Aug 2015
Publisher: Taylor & Francis Inc
Publication City/Country: US
Product Form: Hardback

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Semialgebraic Statistics and Latent Tree Models explains how to analyze statistical models with hidden (latent) variables. It takes a systematic, geometric approach to studying the semialgebraic structure of latent tree models.

The first part of the book gives a general introduction to key concepts in algebraic statistics, focusing on methods that are helpful in the study of models with hidden variables. The author uses tensor geometry as a natural language to deal with multivariate probability distributions, develops new combinatorial tools to study models with hidden data, and describes the semialgebraic structure of statistical models.

The second part illustrates important examples of tree models with hidden variables. The book discusses the underlying models and related combinatorial concepts of phylogenetic trees as well as the local and global geometry of latent tree models. It also extends previous results to Gaussian latent tree models.

This book shows you how both combinatorics and algebraic geometry enable a better understanding of latent tree models. It contains many results on the geometry of the models, including a detailed analysis of identifiability and the defining polynomial constraints.

Piotr Zwiernik is a Marie Skłodowska-Curie International Fellow in the Department of Mathematics at the University of Genoa. His research interests include statistical inference, graphical models with hidden variables, algebraic statistics, singular learning theory, time series analysis, and symbolic methods. He received a PhD in statistics from the University of Warwick.

Semialgebraic Statistics and Latent Tree Models

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