EuDML | Browse

This contribution deals with the dominance relation on the class of conjunctors, containing as particular cases the subclasses of quasi-copulas, copulas and t-norms. The main results pertain to the summand-wise nature of the dominance relation, when applied to ordinal sum conjunctors, and to the relationship between the idempotent elements of two conjunctors involved in a dominance relationship. The results are illustrated on some well-known parametric families of t-norms and copulas.

On the functional equation $f (x) + \sum_{i = 1}^{n} g_{i} (y_{i}) = h (T (x, y_{1}, y_{2}, . . ., y_{n}))$

C. T. Ng (1973)

Annales Polonici Mathematici

On the fundamental group of the fixed points of an unipotent action.

Daniel Gross (1988)

Manuscripta mathematica

On the Hartogs-Bochner extension phenomenon for differential forms.

Christine Laurent-Thiébaut (1989)

Mathematische Annalen

On the homogeneous functions with two parameters and its monotonicity.

Yang, Zhen-Hang (2005)

JIPAM. Journal of Inequalities in Pure & Applied Mathematics [electronic only]

On the jump set of solutions of the total variation flow

V. Caselles, K. Jalalzai, M. Novaga (2013)

Rendiconti del Seminario Matematico della Università di Padova

On the linear Denjoy property of two-variable continuous functions

Miklós Laczkovich, Ákos K. Matszangosz (2015)

Colloquium Mathematicae

The classical Denjoy-Young-Saks theorem gives a relation, here termed the Denjoy property, between the Dini derivatives of an arbitrary one-variable function that holds almost everywhere. Concerning the possible generalizations to higher dimensions, A. S. Besicovitch proved the following: there exists a continuous function of two variables such that at each point of a set of positive measure there exist continuum many directions, in each of which one Dini derivative is infinite and the other...

On the lower semicontinuity of certain integral functionals

Ennio De Giorgi, Giuseppe Buttazzo, Gianni Dal Maso (1983)

Atti della Accademia Nazionale dei Lincei. Classe di Scienze Fisiche, Matematiche e Naturali. Rendiconti Lincei. Matematica e Applicazioni

Si dimostra che il funzionale $\int_{\Omega}f(u,Du)dx$ è semicontinuo inferiormente su $W_{loc}^{1,1}(\Omega)$ , rispetto alla topologia indotta da $L_{loc}^{1}(\Omega)$ , qualora l’integrando $f(s,p)$ sia una funzione non-negativa, misurabile in $s$ , convessa in $p$ , limitata nell’intorno dei punti del tipo $(s,0)$ , e tale che la funzione $s\mapsto f(s,0)$ sia semicontinua inferiormente su $\mathbf{R}$ .

On the lower semicontinuous quasiconvex envelope for unbounded integrands (I)

Marcus Wagner (2009)

ESAIM: Control, Optimisation and Calculus of Variations

Motivated by the study of multidimensional control problems of Dieudonné-Rashevsky type, we raise the question how to understand to notion of quasiconvexity for a continuous function f with a convex body K $\subset ℝ^{n m}$ instead of the whole space $ℝ^{n m}$ as the range of definition. In the present paper, we trace the consequences of an infinite extension of f outside K, and thus study quasiconvex functions which are allowed to take the value +∞. As an appropriate envelope, we introduce and investigate the lower semicontinuous...

On the notions of absolute continuity for functions of several variables

Stanislav Hencl (2002)

Fundamenta Mathematicae

Absolutely continuous functions of n variables were recently introduced by J. Malý [5]. We introduce a more general definition, suggested by L. Zajíček. This new absolute continuity also implies continuity, weak differentiability with gradient in Lⁿ, differentiability almost everywhere and the area formula. It is shown that our definition does not depend on the shape of balls in the definition.

On the obstacle problem with a volume constraint.

Goswin Eisen (1983)

Manuscripta mathematica

On the order of magnitude of Walsh-Fourier transform

Bhikha Lila Ghodadra, Vanda Fülöp (2020)

Mathematica Bohemica

For a Lebesgue integrable complex-valued function $f$ defined on $ℝ^{+} : = [0, \infty)$ let $\hat{f}$ be its Walsh-Fourier transform. The Riemann-Lebesgue lemma says that $\hat{f} (y) \to 0$ as $y \to \infty$ . But in general, there is no definite rate at which the Walsh-Fourier transform tends to zero. In fact, the Walsh-Fourier transform of an integrable function can tend to zero as slowly as we wish. Therefore, it is interesting to know for functions of which subclasses of $L^{1} (ℝ^{+})$ there is a definite rate at which the Walsh-Fourier transform tends to zero. We...

Currently displaying 441 – 460 of 689

Previous Page 23 Next