About DML-CZ | FAQ | Conditions of Use | Math Archives | Contact Us
  Previous |  Up |  Next

Article

Federson, Márcia
The monotone convergence theorem for multidimensional abstract Kurzweil vector integrals. (English). Czechoslovak Mathematical Journal, vol. 52 (2002), issue 2, pp. 429-437
MSC: 26A39, 26A42, 28B05 | MR 1905449 | Zbl 1022.28003
Keywords:
Monotone Convergence Theorem; Kurzweil vector integral; ordered normed spaces
Summary:
We prove two versions of the Monotone Convergence Theorem for the vector integral of Kurzweil, $\int _R{\mathrm d}\alpha (t) f(t)$, where $R$ is a compact interval of $\mathbb{R}^n$, $\alpha $ and $f$ are functions with values on $L(Z,W)$ and $Z$ respectively, and $Z$ and $W$ are monotone ordered normed spaces. Analogous results can be obtained for the Kurzweil vector integral, $\int _R\alpha (t)\mathrm{d}f(t)$, as well as to unbounded intervals $R$.
References:
[1] G. Birkhoff: Integration of functions on Banach spaces. Trans. Amer. Math. Soc. 38 (1935), 357–378. MR 1501815
[2] M. M.  Day: Normed Linear Spaces. Springer-Verlag, 1973. MR 0344849 | Zbl 0268.46013
[3] M.  Federson: The Fundamental Theorem of Calculus for the multidimensional Banach space-valued Henstock vector integral. Real Anal. Exchange 25 (2000), 469–480. MR 1758903
[4] R.  Henstock: A Riemann-type integral of Lebesgue power. Canad. J.  Math. 20 (1968), 79–87. DOI 10.4153/CJM-1968-010-5 | MR 0219675 | Zbl 0171.01804
[5] C. S. Hönig: On a remarkable differential characterization of the functions that are Kurzweil-Henstock integrals. Seminário Brasileiro de Análise 33 (1991), 331–341.
[6] G. J. Murphy: $C^{*}$-Algebras and Operator Theory. Academic Press, 1990. MR 1074574 | Zbl 0714.46041
[7] Š.  Schwabik: Abstract Perron-Stieltjes integral. Math. Bohem. 121 (1996), 425–447. MR 1428144 | Zbl 0879.28021
Partner of
EuDML logo