# Binomial Ideals

Herzog, Jurgen.

Binomial Ideals by Jürgen Herzog, Takayuki Hibi, Hidefumi Ohsugi. - Switzerland: Springer Nature, 2018. - XIX, 321 p. 55 illustrations, 4 illustrations in color. - Graduate Texts in Mathematics, 279 0072-5285 ; . - Graduate Texts in Mathematics, 279 .

Part I: Basic Concepts -- Polynomial Rings and Gröbner Bases -- Review of Commutative Algebra -- Part II:Binomial Ideals and Convex Polytopes -- Introduction to Binomial Ideals -- Convex Polytopes and Unimodular Triangulations -- Part III. Applications in Combinatorics and Statistics- Edge Polytopes and Edge Rings -- Join-Meet Ideals of Finite Lattices -- Binomial Edge Ideals and Related Ideals -- Ideals Generated by 2-Minors -- Statistics -- References -- Index.

This textbook provides an introduction to the combinatorial and statistical aspects of commutative algebra with an emphasis on binomial ideals. In addition to thorough coverage of the basic concepts and theory, it explores current trends, results, and applications of binomial ideals to other areas of mathematics. The book begins with a brief, self-contained overview of the modern theory of Gröbner bases and the necessary algebraic and homological concepts from commutative algebra. Binomials and binomial ideals are then considered in detail, along with a short introduction to convex polytopes. Chapters in the remainder of the text can be read independently and explore specific aspects of the theory of binomial ideals, including edge rings and edge polytopes, join-meet ideals of finite lattices, binomial edge ideals, ideals generated by 2-minors, and binomial ideals arising from statistics. Each chapter concludes with a set of exercises and a list of related topics and results that will complement and offer a better understanding of the material presented. Binomial Ideals is suitable for graduate students in courses on commutative algebra, algebraic combinatorics, and statistics. Additionally, researchers interested in any of these areas but familiar with only the basic facts of commutative algebra will find it to be a valuable resource.

ISBN: 9783030070199 (Pbk)

Standard No.: 10.1007/978-3-319-95349-6 doi

LCCN: 2019744217

Subjects--Topical Terms:

Combinatorics.

Commutative algebra.

Commutative rings.

Convex geometry.

Discrete geometry.

Commutative Rings and Algebras.

Combinatorics.

Convex and Discrete Geometry.

Dewey Class. No.: 512.44 H44B

Binomial Ideals by Jürgen Herzog, Takayuki Hibi, Hidefumi Ohsugi. - Switzerland: Springer Nature, 2018. - XIX, 321 p. 55 illustrations, 4 illustrations in color. - Graduate Texts in Mathematics, 279 0072-5285 ; . - Graduate Texts in Mathematics, 279 .

Part I: Basic Concepts -- Polynomial Rings and Gröbner Bases -- Review of Commutative Algebra -- Part II:Binomial Ideals and Convex Polytopes -- Introduction to Binomial Ideals -- Convex Polytopes and Unimodular Triangulations -- Part III. Applications in Combinatorics and Statistics- Edge Polytopes and Edge Rings -- Join-Meet Ideals of Finite Lattices -- Binomial Edge Ideals and Related Ideals -- Ideals Generated by 2-Minors -- Statistics -- References -- Index.

This textbook provides an introduction to the combinatorial and statistical aspects of commutative algebra with an emphasis on binomial ideals. In addition to thorough coverage of the basic concepts and theory, it explores current trends, results, and applications of binomial ideals to other areas of mathematics. The book begins with a brief, self-contained overview of the modern theory of Gröbner bases and the necessary algebraic and homological concepts from commutative algebra. Binomials and binomial ideals are then considered in detail, along with a short introduction to convex polytopes. Chapters in the remainder of the text can be read independently and explore specific aspects of the theory of binomial ideals, including edge rings and edge polytopes, join-meet ideals of finite lattices, binomial edge ideals, ideals generated by 2-minors, and binomial ideals arising from statistics. Each chapter concludes with a set of exercises and a list of related topics and results that will complement and offer a better understanding of the material presented. Binomial Ideals is suitable for graduate students in courses on commutative algebra, algebraic combinatorics, and statistics. Additionally, researchers interested in any of these areas but familiar with only the basic facts of commutative algebra will find it to be a valuable resource.

Combinatorics.

Commutative algebra.

Commutative rings.

Convex geometry.

Discrete geometry.

Commutative Rings and Algebras.

Combinatorics.

Convex and Discrete Geometry.