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Cylindrical σ-algebra

From Wikipedia, the free encyclopedia

In mathematics — specifically, in measure theory and functional analysis — the cylindrical σ-algebra[1] or product σ-algebra[2][3] is a type of σ-algebra which is often used when studying product measures or probability measures of random variables on Banach spaces.

For a product space, the cylinder σ-algebra is the one that is generated by cylinder sets.

In the context of a Banach space the cylindrical σ-algebra is defined to be the coarsest σ-algebra (that is, the one with the fewest measurable sets) such that every continuous linear function on is a measurable function. In general, is not the same as the Borel σ-algebra on which is the coarsest σ-algebra that contains all open subsets of

See also

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  • Cylinder set – natural basic set in product spaces
  • Cylinder set measure – way to generate a measure over product spaces

References

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  1. ^ Gine, Evarist; Nickl, Richard (2016). Mathematical Foundations of Infinite-Dimensional Statistical Models. Cambridge University Press. p. 16.
  2. ^ Athreya, Krishna; Lahiri, Soumendra (2006). Measure Theory and Probability Theory. Springer. pp. 202–203.
  3. ^ Cohn, Donald (2013). Measure Theory (Second ed.). Birkhauser. p. 365.