In mathematics, the modulus of convexity and the 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 where S denotes the unit sphere of (X, || ||).
In the definition of δ(ε), one can as well take the infimum over all vectors x, y in X such that ǁxǁ, ǁyǁ ≤ 1 and ǁx − yǁ ≥ ε.
[1] The characteristic of convexity of the space (X, || ||) is the number ε0 defined by These notions are implicit in the general study of uniform convexity by J. A.
The term "modulus of convexity" appears to be due to M. M. Day.
[2] The modulus of convexity is known for the LP spaces.
, then it satisfies the following implicit equation: Knowing that
Substituting this into the above, and expanding the left-hand-side as a Taylor series around
, one has the explicit expression Therefore,