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Contemporary Mathematics. Fundamental Directions, 2015, Volume 57, Pages 162–183
(Mi cmfd275)
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Sequential analogues of the Lyapunov and Krein–Milman theorems in Fréchet spaces
F. S. Stonyakin
Abstract:
In this paper we develop the theory of anti-compact sets we introduced earlier. We describe the class of Fréchet spaces where anti-compact sets exist. They are exactly the spaces that have a countable set of continuous linear functionals. In such spaces we prove an analogue of the Hahn–Banach theorem on extension of a continuous linear functional from the original space to a space generated by some anti-compact set. We obtain an analogue of the Lyapunov theorem on convexity and compactness of the range of vector measures, which establishes convexity and a special kind of relative weak compactness of the range of an atomless vector measure with values in a Fréchet space possessing an anti-compact set. Using this analogue of the Lyapunov theorem, we prove the solvability of an infinite-dimensional analogue of the problem of fair division of resources. We also obtain an analogue of the Lyapunov theorem for nonadditive analogues of measures that are vector quasi-measures valued in an infinite-dimensional Fréchet space possessing an anti-compact set. In the class of Fréchet spaces possessing an anti-compact set, we obtain analogues of the Krein–Milman theorem on extreme points for convex bounded sets that are not necessarily compact. A special place is occupied by analogues of the Krein–Milman theorem in terms of extreme sequences introduced in the paper (the so-called sequential analogues of the Krein–Milman theorem).
Citation:
F. S. Stonyakin, “Sequential analogues of the Lyapunov and Krein–Milman theorems in Fréchet spaces”, Proceedings of the Crimean autumn mathematical school-symposium, CMFD, 57, PFUR, M., 2015, 162–183; Journal of Mathematical Sciences, 225:2 (2017), 322–344
Linking options:
https://www.mathnet.ru/eng/cmfd275 https://www.mathnet.ru/eng/cmfd/v57/p162
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Abstract page: | 381 | Full-text PDF : | 77 | References: | 41 |
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