Posted by **tot167** at Oct. 7, 2009

Morgan & Claypool | 2007 | ISBN: 1598292587 | 121 pages | PDF | 1,3 MB

Posted by **Jeembo** at March 18, 2017

English | 2001 | ISBN: 0521802504 | 184 Pages | PDF | 1.4 MB

This clear exposition of the flourishing field of fixed point theory, an important tool in the fields of differential equations and functional equations, starts from the basics of Banach's contraction theorem and develops most of the main results and techniques.

Posted by **step778** at Feb. 21, 2017

2006 | pages: 546 | ISBN: 1402046650 | PDF | 5,1 mb

Posted by **Nice_smile)** at Feb. 15, 2017

English | 2013 | ISBN: 0821884883 | 97 Pages | PDF | 2.06 MB

Posted by **nebulae** at Feb. 14, 2017

English | ISBN: 3731502607 | 2014 | 150 pages | PDF | 4 MB

Posted by **tukotikko** at July 23, 2016

2015 | 404 Pages | ISBN: 3319240803 | PDF | 3 MB

Posted by **Underaglassmoon** at July 14, 2016

Springer | Mathematics | July 30 2016 | ISBN-10: 3319332538 | 390 pages | pdf | 3.45 mb

Authors: Zaslavski, Alexander J.

Examines the convergence of component-averaged row projections [CARP]

Extends results for a dynamic string-averaging version of the proximal algorithm

Posted by **Underaglassmoon** at June 18, 2016

Springer | Analysis | May 18 2016 | ISBN-10: 3319279769 | 227 pages | pdf | 2.47 mb

Authors: Shapiro, Joel H.

Covers all major Fixed-Point theories in detail

Introduces Fixed-Point Theory and correlates it to several topics in Analysis

Posted by **enmoys** at June 6, 2016

2013 | 248 Pages | ISBN: 9814458910 | PDF | 1 MB

Posted by **Underaglassmoon** at May 12, 2016

Springer | Analysis | June 5 2016 | ISBN-10: 3319319477 | 194 pages | pdf | 1.55 mb

Authors: Ben Amar, Afif, O'Regan, Donal

Written for graduate students as well as theoretical and appliedmathematicians interested in fixed point theory, integral equations, ordinary and partial differential equations, and game theory

Develops a method to indicate how to use approximate fixed point theorems to prove the existence of approximate Nash equilibria for non-cooperative games