Spelling suggestions: "subject:"tauberian""
1 |
Die geistlichen Institutionen der Reichsstadt Rothenburg ob der Tauber und dem zugehörigen Landgebiet von den Anfängen bis zur Reformation /Borchardt, Karl, January 1988 (has links)
Texte remanié de: Diss.--Würzburg--Universität Würzburg, 1985.
|
2 |
Group actions and ergodic theory on Banach function spaces / Richard John de BeerDe Beer, Richard John January 2014 (has links)
This thesis is an account of our study of two branches of dynamical systems
theory, namely the mean and pointwise ergodic theory.
In our work on mean ergodic theorems, we investigate the spectral theory of
integrable actions of a locally compact abelian group on a locally convex vector
space. We start with an analysis of various spectral subspaces induced by the action
of the group. This is applied to analyse the spectral theory of operators on the
space generated by measures on the group. We apply these results to derive general
Tauberian theorems that apply to arbitrary locally compact abelian groups acting on
a large class of locally convex vector spaces which includes Fr echet spaces. We show
how these theorems simplify the derivation of Mean Ergodic theorems.
Next we turn to the topic of pointwise ergodic theorems. We analyse the Transfer
Principle, which is used to generate weak type maximal inequalities for ergodic
operators, and extend it to the general case of -compact locally compact Hausdor
groups acting measure-preservingly on - nite measure spaces. We show how
the techniques developed here generate various weak type maximal inequalities on
di erent Banach function spaces, and how the properties of these function spaces in-
uence the weak type inequalities that can be obtained. Finally, we demonstrate how
the techniques developed imply almost sure pointwise convergence of a wide class of
ergodic averages.
Our investigations of these two parts of ergodic theory are uni ed by the techniques
used - locally convex vector spaces, harmonic analysis, measure theory - and
by the strong interaction of the nal results, which are obtained in greater generality
than hitherto achieved. / PhD (Mathematics), North-West University, Potchefstroom Campus, 2014
|
3 |
Group actions and ergodic theory on Banach function spaces / Richard John de BeerDe Beer, Richard John January 2014 (has links)
This thesis is an account of our study of two branches of dynamical systems
theory, namely the mean and pointwise ergodic theory.
In our work on mean ergodic theorems, we investigate the spectral theory of
integrable actions of a locally compact abelian group on a locally convex vector
space. We start with an analysis of various spectral subspaces induced by the action
of the group. This is applied to analyse the spectral theory of operators on the
space generated by measures on the group. We apply these results to derive general
Tauberian theorems that apply to arbitrary locally compact abelian groups acting on
a large class of locally convex vector spaces which includes Fr echet spaces. We show
how these theorems simplify the derivation of Mean Ergodic theorems.
Next we turn to the topic of pointwise ergodic theorems. We analyse the Transfer
Principle, which is used to generate weak type maximal inequalities for ergodic
operators, and extend it to the general case of -compact locally compact Hausdor
groups acting measure-preservingly on - nite measure spaces. We show how
the techniques developed here generate various weak type maximal inequalities on
di erent Banach function spaces, and how the properties of these function spaces in-
uence the weak type inequalities that can be obtained. Finally, we demonstrate how
the techniques developed imply almost sure pointwise convergence of a wide class of
ergodic averages.
Our investigations of these two parts of ergodic theory are uni ed by the techniques
used - locally convex vector spaces, harmonic analysis, measure theory - and
by the strong interaction of the nal results, which are obtained in greater generality
than hitherto achieved. / PhD (Mathematics), North-West University, Potchefstroom Campus, 2014
|
Page generated in 0.0357 seconds