Lusternik-Schnirelmann category / Octav Cornea, Gregory Lupton, John Oprea ... [et al.]
Type de document : MonographieCollection : Mathematical surveys and monographs, 103Langue : anglais.Pays: Etats Unis.Éditeur : American Mathematical Society, Providence (R.I.), 2003Description : 1 vol. (xvii-330 p.) : ill. ; 26 cmISBN: 9780821834046.ISSN: 0885-4653.Bibliographie : Bibliogr. p. 311-324. Index.Sujet MSC : 55M30, Classical topics in algebraic topology, Lyusternik-Shnirel'man category of a space, topological complexity à la Farber, topological robotics55P62, Algebraic topology - Homotopy theory, Rational homotopy theory
55Q25, Algebraic topology - Homotopy groups, Hopf invariants
57R17, Manifolds and cell complexes - Differential topology, Symplectic and contact topology in high or arbitrary dimension
58E05, Global analysis, analysis on manifolds, Abstract critical point theory (Morse theory, Lyusternik-Shnirel'man theory, etc.) in infinite-dimensional spaces
37B30, Topological dynamics, Index theory for dynamical systems, Morse-Conley indicesEn-ligne : Zentralblatt | MathScinet | AMS
| Item type | Current library | Call number | Status | Date due | Barcode |
|---|---|---|---|---|---|
Monographie
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CMI Salle 1 | 55 COR (Browse shelf(Opens below)) | Available | 06558-01 |
The contents of the book are the following: Ch. 1. Introduction to LS-Category. Here the authors give the definition and state basic properties of LS-category and give homotopy interpretations of LS category via the Whitehead fat wedge and the Ganea-Svarz fibration. Ch. 2. Lower bounds for LS-Category. Here the authors consider some invariants that estimate LS-category from below (cup-length, conilpotency, Toomer invariant, σ cat, weak category) and give some comparison results for these invariants. The relatively new concept of category weight is also treated in the chapter. Ch. 3. Upper bounds for Category. In this chapter the authors compare the category with other numerical covering invariants (strong category, cone-length, covering of manifolds by balls) and consider some cases when the category is equal to these invariants. Ch. 4. Localization and Category. Here the authors explain backgrounds on localization and prove some relations between the category of a space and the localized space. Also, in this chapter, behaviour of the category under fiberwise constructions is considered. Ch. 5. Rational Homotopy and Category. Here the authors describe the category in terms of Sullivan minimal models and consider related rational invariants (cat 0 , mcat). Ch. 6. Hopf Invariants. The concepts of this chapter is concentrated about the following question: what happens with the category of a space after attaching a cell? Most results say that the category does not increase provided that a suitably defined Hopf invariant of an attaching map is equal to zero. Also, in this chapter the authors explain Iwase's counterexample to the Ganea conjecture. Ch. 7. Category and Critical Points. Here the authors explain the Conley index theory, discuss some results on upper bounds for minimal numbers of critical points of functions on manifolds, develop analogs of LS-theory for manifolds with boundary and open manifolds, provided that the functions have controlled behavior on the boundary or at infinity. Ch. 8. Category and Symplectic Topology. Here the authors explain applications of LS-theory to the Arnold conjecture (fixed points of Hamiltonian symplectomorphisms, Lagrangian intersections) and to symplectic group actions. Ch. 9. Examples, Computations and Extensions. Several interesting topics, including Smale's application of LS-theory to the complexity of algorithms. (Zentralblatt)
Bibliogr. p. 311-324. Index
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