Modulus and characteristic of convexity

In mathematics, the modulus and characteristic of convexity are measures of "how convex" the unit ball in a Banach space is. In some sense, the modulus of convexity has the same relationship to the ε-δ definition of uniform convexity as the modulus of continuity does to the ε-δ definition of continuity.

The modulus of convexity of a Banach space (X, || ||) is the function δ : [0, 2] → [0, 1] defined by

${\displaystyle \delta (\varepsilon )=\inf \left\{\left.1-\left\|{\frac {x+y}{2}}\right\|\right|x,y\in B,\|x-y\|\geq \varepsilon \right\},}$

where B denotes the closed unit ball of (X, || ||). The characteristic of convexity of the space (X, || ||) is the number ε₀ defined by

${\displaystyle \varepsilon _{0}=\sup\{\varepsilon |\delta (\varepsilon )=0\}.}$

• The modulus of convexity, δ(ε), is a non-decreasing and convex function of ε.
• (X, || ||) is a uniformly convex space if and only if its characteristic of convexity ε₀ = 0.
• (X, || ||) is a strictly convex space (i.e., the boundary of the unit ball B contains no line segments) if and only if δ(2) = 1.

• Goebel, Kazimierz (1970). "Convexity of balls and fixed-point theorems for mappings with nonexpansive square". Compositio Mathematica. 22 (3): 269–274.