Mosco convergence

In mathematical analysis, Mosco convergence is a notion of convergence for functionals that is used in nonlinear analysis and set-valued analysis. It is a particular case of Γ-convergence. Mosco convergence is sometimes phrased as “weak Γ-liminf and strong Γ-limsup” convergence since it uses both the weak and strong topologies on a topological vector space X. In finite dimensional spaces, Mosco convergence coincides with epi-convergence, while in infinite-dimensional ones, Mosco convergence is strictly stronger property.

Mosco convergence is named after Italian mathematician Umberto Mosco, a current Harold J. Gay^[1] professor of mathematics at Worcester Polytechnic Institute.

Definition

Let X be a topological vector space and let X^∗ denote the dual space of continuous linear functionals on X. Let F_n : X → [0, +∞] be functionals on X for each n = 1, 2, ... The sequence (or, more generally, net) (F_n) is said to Mosco converge to another functional F : X → [0, +∞] if the following two conditions hold:

• lower bound inequality: for each sequence of elements x_n ∈ X converging weakly to x ∈ X,

[math]\displaystyle{ \liminf_{n \to \infty} F_{n} (x_{n}) \geq F(x); }[/math]

• upper bound inequality: for every x ∈ X there exists an approximating sequence of elements x_n ∈ X, converging strongly to x, such that

[math]\displaystyle{ \limsup_{n \to \infty} F_{n} (x_{n}) \leq F(x). }[/math]

Since lower and upper bound inequalities of this type are used in the definition of Γ-convergence, Mosco convergence is sometimes phrased as “weak Γ-liminf and strong Γ-limsup” convergence. Mosco convergence is sometimes abbreviated to M-convergence and denoted by

[math]\displaystyle{ \mathop{\text{M-lim}}_{n \to \infty} F_{n} = F \text{ or } F_{n} \xrightarrow[n \to \infty]{\mathrm{M}} F. }[/math]

References

• Mosco, Umberto (1967). "Approximation of the solutions of some variational inequalities". Annali della Scuola Normale Superiore di Pisa 21 (3): 373–394. http://www.numdam.org/item/ASNSP_1967_3_21_3_373_0/. 
• Mosco, Umberto (1969). "Convergence of convex sets and of solutions of variational inequalities". Advances in Mathematics 3 (4): 510–585. doi:10.1016/0001-8708(69)90009-7. 
• Borwein, Jonathan M.; Fitzpatrick, Simon (1989). "Mosco convergence and the Kadec property". Proceedings of the American Mathematical Society 106 (3): 843–851. doi:10.2307/2047444. 
• Mosco, Umberto. "Worcester Polytechnic Institute Faculty Directory". http://www.wpi.edu/academics/facultydir/uxm.html. 

Notes

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