Computational commutative algebra

"The second volume of the authors' 'Computational commutative algebra'...covers on its 586 pages a wealth of interesting material with several unexpected applications. ... an encyclopedia on computational commutative algebra, a source for lectures on the subject as well as an inspiration for seminars. The text is recommended for all those who want to learn and enjoy an algebraic tool that becomes more and more relevant to different fields of applications." --ZENTRALBLATT MATH

The Homogeneous Case.- Hilbert Functions.- Further Applications.

This introduction to polynomial rings, Groebner bases and applications bridges the gap in the literature between theory and actual computation. It details numerous applications, covering fields as disparate as algebraic geometry and financial markets. To aid in a full understanding of these applications, more than 40 tutorials illustrate how the theory can be used. The book also includes many exercises, both theoretical and practical.

Foreword Introduction 0.1 What Is This Book About? 0.2 What Is a Groebner Basis? 0.3 Who Invented This Theory? 0.4 Now, What Is This Book Really About? 0.5 What Is This Book Not About? 0.6 Are There any Applications of This Theory? 0.7 How Was This Book Written? 0.8 What Is a Tutorial? 0.9 What Is CoCoA? 0.10 And What Is This Book Good for? 0.11 Some Final Words of Wisdom Chapter 1. Foundations 1.1 Polynomial Rings Tutorial 1. Polynomial Representation I Tutorial 2. The Extended Euclidean Algorithm Tutorial 3. Finite Fields 1.2 Unique Factorization Tutorial 4. Euclidean Domains Tutorial 5. Squarefree Parts of Polynomials Tutorial 6. Berlekamps Algorithm 1.3 Monomial Ideals and Monomial Modules Tutorial 7. Cogenerators Tutorial 8. Basic Operations with Monomial Ideals and Modules 1.4 Term Orderings Tutorial 9. Monoid Orderings Represented by Matrices Tutorial 10. Classification of Term Orderings 1.5 Leading Terms Tutorial 11. Polynomial Representation II Tutorial 12. Symmetric Polynomials Tutorial 13. Newton Polytopes 1.6 The Division Algorithm Tutorial 14. Implementation of the Division Algorithm Tutorial 15. Normal Remainders 1.7 Gradings Tutorial 16. Homogeneous Polynomials Chapter 2. Grbner Bases 2.1 Special Generation Tutorial 17. Minimal Polynomials of Algebraic Numbers 2.2 Rewrite Rules Tutorial 18. Algebraic Numbers 2.3 Syzygies Tutorial 19. Computing Syzygies of Monomial Modules Tutorial 20. Lifting of Syzygies 2.4 Grbner Bases of Ideals and Modules 2.4.A Existence of Grbner Bases 2.4.B Normal Forms 2.4.C Reduced Grbner Bases Tutorial 21. Linear Algebra Tutorial 22. Reduced Grbner Bases 2.5 Buchbergers Algorithm Tutorial 23. Buchbergers Criterion Tutorial 24. Computing Some Grbner Bases Tutorial 25. Some Optimizations of Buchbergers Algorithm 2.6 Hilberts Nullstellensatz 2.6.A The Field-Theoretic Version 2.6.B The Geometric Version Tutorial 26. Graph Colourings Tutorial 27. Affine Varieties Chapter 3. First Applications 3.1 Computation of Syzygy Modules Tutorial 28. Splines Tutorial 29. Hilberts Syzygy Theorem 3.2 Elementary Operations on Modules 3.2.A Intersections 3.2.B Colon Ideals and Annihilators 3.2.C Colon Modules Tutorial 30. Computation of Intersections Tutorial 31. Computation of Colon Ideals and Colon Modules 3.3 Homomorphisms of Modules 3.3.A Kernels, Images, and Liftings of Linear Maps 3.3.B Hom-Modules Tutorial 32. Computing Kernels and Pullbacks Tutorial 33. The Depth of a Module 3.4 Elimination Tutorial 34. Elimination of Module Components Tutorial 35. Projective Spaces and Graomannians Tutorial 36. Diophantine Systems and Integer Programming 3.5 Localization and Saturation 3.5.A Localization 3.5.B Saturation Tutorial 37. Computation of Saturations Tutorial 38. Toric Ideals 3.6 Homomorphisms of Algebras Tutorial 39. Projections Tutorial 40. Grbner Bases and Invariant Theory Tutorial 41. Subalgebras of Function Fields 3.7 Systems of Polynomial Equations 3.7.A A Bound for the Number of Solutions 3.7.B Radicals of Zero-Dimensional Ideals 3.7.C Solving Systems Effectively Tutorial 42. Strange Polynomials Tutorial 43. Primary Decompositions Tutorial 44. Modern Portfolio Theory Appendix A. How to Get Started with CoCoA Appendix B. How to Program CoCoA Appendix C. A Potpourri of CoCoA Programs Appendix D. Hints for Selected Exercises Notation Bibliography Index