Morse decomposition, attractors and chain recurrence

José Ayala Hoffmann; Patrick Corbin; Kelly McConville; Fritz Colonius; Wolfgang Kliemann; Justin R. Peters

Ayuda

Morse decomposition, attractors and chain recurrence

Ayala-Hoffmann, José ^[1] ; Corbin, Patrick ^[2] ; McConville, Kelly ^[3] ; Colonius, Fritz ^[4] ; Kliemann, Wolfgang ^[1] ; Peters, Justin R. ^[1]
1. [1] Iowa State University
  
  Iowa State University
  
  Township of Franklin, Estados Unidos
2. [2] Tulane University
  
  Tulane University
  
  City of New Orleans, Estados Unidos
3. [3] St. Olaf College
  
  St. Olaf College
  
  City of Northfield, Estados Unidos
4. [4] University of Augsburg
  
  University of Augsburg
  
  Kreisfreie Stadt Augsburg, Alemania
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Localización: Proyecciones: Journal of Mathematics, ISSN 0716-0917, ISSN-e 0717-6279, Vol. 25, Nº. 1, 2006, págs. 79-109
Idioma: inglés
DOI: 10.4067/S0716-09172006000100006
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Resumen
- The global behavior of a dynamical system can be described by its Morse decompositions or its attractor and repeller configurations. There is a close relation between these two approaches and also with (maximal) chain recurrent sets that describe the system behavior on finest Morse sets. These sets depend upper semicontinuously on parameters. The connection with ergodic theory is provided through the construction of invariant measures based on chains.
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