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Book DetailsMathematical Surveys and MonographsVolume: 99; 2003; 457 ppMSC: Primary 18; 55
The aim of this book is to explain modern homotopy theory in a manner accessible to graduate students yet structured so that experts can skip over numerous linear developments to quickly reach the topics of their interest. Homotopy theory arises from choosing a class of maps, called weak equivalences, and then passing to the homotopy category by localizing with respect to the weak equivalences, i.e., by creating a new category in which the weak equivalences are isomorphisms. Quillen defined a model category to be a category together with a class of weak equivalences and additional structure useful for describing the homotopy category in terms of the original category. This allows you to make constructions analogous to those used to study the homotopy theory of topological spaces.
A model category has a class of maps called weak equivalences plus two other classes of maps, called cofibrations and fibrations. Quillen's axioms ensure that the homotopy category exists and that the cofibrations and fibrations have extension and lifting properties similar to those of cofibration and fibration maps of topological spaces. During the past several decades the language of model categories has become standard in many areas of algebraic topology, and it is increasingly being used in other fields where homotopy theoretic ideas are becoming important, including modern algebraic \(K\)theory and algebraic geometry.
All these subjects and more are discussed in the book, beginning with the basic definitions and giving complete arguments in order to make the motivations and proofs accessible to the novice. The book is intended for graduate students and research mathematicians working in homotopy theory and related areas.
ReadershipGraduate students and research mathematicians.

Table of Contents

Part 1 . Localization of model category structures

1. Local spaces and localization

2. The localization model category for spaces

3. Localization of model categories

4. Existence of left Bousfield localizations

5. Existence of right Bousfield localizations

6. Fiberwise localization

Part 2. Homotopy theory in model categories

7. Model categories

8. Fibrant and cofibrant approximations

9. Simplicial model categories

10. Ordinals, cardinals, and transfinite composition

11. Cofibrantly generated model categories

12. Cellular model categories

13. Proper model categories

14. The classifying space of a small category

15. The reedy model category structure

16. Cosimplicial and simplicial resolutions

17. Homotopy function complexes

18. Homotopy limits in simplicial model categories

19. Homotopy limits in general model categories


Additional Material

Reviews

This book was many years in the writing, and it shows. It is very carefully written, exhaustively (even obsessively) crossreferenced, and precise in all its details. In short, it is an important reference for the subject.
Zentralblatt MATH


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The aim of this book is to explain modern homotopy theory in a manner accessible to graduate students yet structured so that experts can skip over numerous linear developments to quickly reach the topics of their interest. Homotopy theory arises from choosing a class of maps, called weak equivalences, and then passing to the homotopy category by localizing with respect to the weak equivalences, i.e., by creating a new category in which the weak equivalences are isomorphisms. Quillen defined a model category to be a category together with a class of weak equivalences and additional structure useful for describing the homotopy category in terms of the original category. This allows you to make constructions analogous to those used to study the homotopy theory of topological spaces.
A model category has a class of maps called weak equivalences plus two other classes of maps, called cofibrations and fibrations. Quillen's axioms ensure that the homotopy category exists and that the cofibrations and fibrations have extension and lifting properties similar to those of cofibration and fibration maps of topological spaces. During the past several decades the language of model categories has become standard in many areas of algebraic topology, and it is increasingly being used in other fields where homotopy theoretic ideas are becoming important, including modern algebraic \(K\)theory and algebraic geometry.
All these subjects and more are discussed in the book, beginning with the basic definitions and giving complete arguments in order to make the motivations and proofs accessible to the novice. The book is intended for graduate students and research mathematicians working in homotopy theory and related areas.
Graduate students and research mathematicians.

Part 1 . Localization of model category structures

1. Local spaces and localization

2. The localization model category for spaces

3. Localization of model categories

4. Existence of left Bousfield localizations

5. Existence of right Bousfield localizations

6. Fiberwise localization

Part 2. Homotopy theory in model categories

7. Model categories

8. Fibrant and cofibrant approximations

9. Simplicial model categories

10. Ordinals, cardinals, and transfinite composition

11. Cofibrantly generated model categories

12. Cellular model categories

13. Proper model categories

14. The classifying space of a small category

15. The reedy model category structure

16. Cosimplicial and simplicial resolutions

17. Homotopy function complexes

18. Homotopy limits in simplicial model categories

19. Homotopy limits in general model categories

This book was many years in the writing, and it shows. It is very carefully written, exhaustively (even obsessively) crossreferenced, and precise in all its details. In short, it is an important reference for the subject.
Zentralblatt MATH