Ideal exhaustiveness, weak convergence and weak compactness in Banach spaces. (English) Zbl 1276.28024
Let \(\mathcal{I}\) be an ideal on \(\mathbb{N}\). Some types of \(\mathcal{I}\)-compactness are defined. Relations between \(\mathcal{I}\)-exhaustiveness and equicontinuity of measures are investigated. Some versions of limit theorems involving \(\mathcal{I}\)-pointwise convergence of measure sequences are established. An application to study the convergence in the space \(L^{\infty}(\lambda)\), for \(\lambda\) being a regular measure, is presented.
Reviewer: Tomasz Natkaniec (Gdańsk)
MSC:
| 28B15 | Set functions, measures and integrals with values in ordered spaces |
| 28A20 | Measurable and nonmeasurable functions, sequences of measurable functions, modes of convergence |
| 54A20 | Convergence in general topology (sequences, filters, limits, convergence spaces, nets, etc.) |
| 40A35 | Ideal and statistical convergence |
Keywords:
admissible ideal; P-ideal; ideal convergence; ideal continuous convergence; ideal exhaustiveness; (uniform) ideal s-boundedness; (uniform) ideal countable additivity; ideal closure; ideal (weak) Fréchet compactness; ideal limit point; ideal (weak) sequential compactness; norm ideal convergence; weak ideal convergenceReferences:
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