Inner measure

In mathematics, in particular in measure theory, an inner measure is a function on the set of all subsets of members of a given σ-algebra with values in the extended real numbers satisfying some technical conditions. Intuitively, the inner measure of a set is a lower bound of the size of that set.

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Definition

An inner measure is a function

\varphi: 2^X \rightarrow [0, \infty],

defined on all subsets of a set X, that satisfies the following conditions:

\varphi(\varnothing) = 0
\varphi( A \cup B) \geq \varphi(A) %2B \varphi( B ).
\varphi \left(\bigcap_{j=1}^\infty A_j\right) = \lim_{j \to \infty} \varphi(A_j)
c \leq \varphi( B) \leq \varphi(A)

The inner measure induced by a measure

Let Σ be a σ-algebra over a set X and μ be a measure on Σ. Then the inner measure μ* induced by μ is defined by

\mu_*(T)=\sup\{\mu(S):S\in\Sigma\text{ and }S\subseteq T\}.

Essentially μ* gives a lower bound of the size of any set by insuring it is at least as big as the μ-measure of any of its Σ-measurable subsets. Even though the set function μ* is usually not a measure, μ* shares the following properties with measures:

  1. μ*(∅)=0,
  2. μ* is non-negative,
  3. If EF then μ*(E) ≤ μ*(F).

Measure completion

Induced inner measures are often used in combination with outer measures to extend a measure to a larger σ-algebra. If μ is a measure defined on σ-algebra Σ over X and μ* and μ* are corresponding induced outer and inner measures, then the sets T ∈ 2X such that μ*(T) = μ*(T) form a σ-algebra \scriptstyle\hat\Sigma with \scriptstyle\Sigma\subseteq\hat\Sigma. The set function μ̂ defined by

\hat\mu(T)=\mu^*(T)=\mu_*(T),

for all T\scriptstyle\hat\Sigma is a measure on \scriptstyle\hat\Sigma known as the completion of μ.

References