We extend the algebraic construction of finite dimensional varying exponent Lp(·) space norms, defined in terms of Cauchy polynomials to a more general setting, including varying exponent Lp(·) spaces. This boils down to reformulating the Musielak–Orlicz or Nakano space norm in an algebraic fashion where the infimum appearing in the definition of the norm should become a (uniquely attained) minimum. The latter may easily fail, as turns out, and in this connection we examine the Fatou type semicontinuity conditions on the modulars. Norms defined by ODEs are applied in studying such semicontinuity properties of Lp(·) space norms with p(· ) unbounded.
Generalizing algebraically defined norms / Fiorenza, A.; Talponen, J.. - In: RICERCHE DI MATEMATICA. - ISSN 0035-5038. - 71:(2022), pp. 53-65. [10.1007/s11587-020-00535-3]
Generalizing algebraically defined norms
Fiorenza A.;
2022
Abstract
We extend the algebraic construction of finite dimensional varying exponent Lp(·) space norms, defined in terms of Cauchy polynomials to a more general setting, including varying exponent Lp(·) spaces. This boils down to reformulating the Musielak–Orlicz or Nakano space norm in an algebraic fashion where the infimum appearing in the definition of the norm should become a (uniquely attained) minimum. The latter may easily fail, as turns out, and in this connection we examine the Fatou type semicontinuity conditions on the modulars. Norms defined by ODEs are applied in studying such semicontinuity properties of Lp(·) space norms with p(· ) unbounded.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
