Banach space

Banach space

   <mathematics> A {complete} {normed} {vector space}.  Metric is
   induced by the norm: d(x,y) = ||x-y||.  Completeness means
   that every {Cauchy sequence} converges to an element of the
   space.  All finite-dimensional {real} and {complex} normed
   vector spaces are complete and thus are Banach spaces.

   Using absolute value for the norm, the real numbers are a
   Banach space whereas the rationals are not.  This is because
   there are sequences of rationals that converges to
   irrationals.

   Several theorems hold only in Banach spaces, e.g. the {Banach
   inverse mapping theorem}.  All finite-dimensional real and
   complex vector spaces are Banach spaces.  {Hilbert spaces},
   spaces of {integrable functions}, and spaces of {absolutely
   convergent series} are examples of infinite-dimensional Banach
   spaces.  Applications include {wavelets}, {signal processing},
   and radar.

   [Robert E. Megginson, "An Introduction to Banach Space
   Theory", Graduate Texts in Mathematics, 183, Springer Verlag,
   September 1998].

   (2000-03-10)