Bs space

In the mathematical field of functional analysis, the space bs consists of all infinite sequences (x_i) of real numbers $\mathbb {R}$ or complex numbers $\mathbb {C}$ such that

\sup _{n}\left|\sum _{i=1}^{n}x_{i}\right|

is finite. The set of such sequences forms a normed space with the vector space operations defined componentwise, and the norm given by

\|x\|_{bs}=\sup _{n}\left|\sum _{i=1}^{n}x_{i}\right|.

Furthermore, with respect to metric induced by this norm, bs is complete: it is a Banach space.

The space of all sequences $\left(x_{i}\right)$ such that the series

\sum _{i=1}^{\infty }x_{i}

is convergent (possibly conditionally) is denoted by cs. This is a closed vector subspace of bs, and so is also a Banach space with the same norm.

The space bs is isometrically isomorphic to the Space of bounded sequences $\ell ^{\infty }$ via the mapping

T(x_{1},x_{2},\ldots )=(x_{1},x_{1}+x_{2},x_{1}+x_{2}+x_{3},\ldots ).

Furthermore, the space of convergent sequences c is the image of cs under $T.$

References

Dunford, N.; Schwartz, J.T. (1958), Linear operators, Part I, Wiley-Interscience.

Banach space topics

Types of Banach spaces

Asplund
Banach
- list
Banach lattice
Grothendieck
Hilbert
- Inner product space
- Polarization identity
(Polynomially) Reflexive
Riesz
L-semi-inner product
(B
Strictly
Uniformly) convex
Uniformly smooth
(Injective
Projective) Tensor product (of Hilbert spaces)

Banach spaces are:

Barrelled
Complete
F-space
Fréchet
- tame
Locally convex
- Seminorms/Minkowski functionals
Mackey
Metrizable
Normed
- norm
Quasinormed
Stereotype

Function space Topologies

Linear operators

Operator theory

Banach algebras
C*-algebras
Operator space
Spectrum
- C*-algebra
- radius
Spectral theory
- of ODEs
- Spectral theorem
Polar decomposition
Singular value decomposition

Theorems

Analysis

Abstract Wiener space
Banach manifold
- bundle
Bochner space
Convex series
Differentiation in Fréchet spaces
Derivatives
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- Gateaux
- functional
- holomorphic
- quasi
Integrals
Functional calculus
Measures
Weakly / Strongly measurable function

Types of sets

Absolutely convex
Absorbing
Affine
Balanced/Circled
Bounded
Convex
Convex cone (subset)
Convex series related ((cs, lcs)-closed, (cs, bcs)-complete, (lower) ideally convex, (Hx), and (Hwx))
Linear cone (subset)
Radial
Radially convex/Star-shaped
Symmetric
Zonotope

Subsets / set operations

Examples

Absolute continuity AC
$ba(\Sigma )$
c space
Banach coordinate BK
Besov $B_{p,q}^{s}(\mathbb {R} )$
Birnbaum–Orlicz
Bounded variation BV
Bs space
Continuous C(K) with K compact Hausdorff
Hardy H^p
Hilbert H
Morrey–Campanato $L^{\lambda ,p}(\Omega )$
ℓ^p
- $\ell ^{\infty }$
L^p
- $L^{\infty }$
- weighted
Schwartz $S\left(\mathbb {R} ^{n}\right)$
Segal–Bargmann F
Sequence space
Sobolev W^k,p
- Sobolev inequality
Triebel–Lizorkin
Wiener amalgam $W(X,L^{p})$

Applications

Functional analysis (topics – glossary)

Spaces

Banach Besov Fréchet Hilbert Hölder Nuclear Orlicz Schwartz Sobolev Topological vector
Properties	Barrelled Complete Dual (Algebraic/Topological) Locally convex Reflexive Separable