Definition:Lebesgue Integral/Nonnegative Measurable Function

Definition

Let $f: E \to \overline \R$ be a nonnegative $\Sigma$-measurable function on $E \in \Sigma$.

Then the Lebesgue integral of $f$ is defined as:

$\ds \int_E f \rd \mu = \sup \set {\int_E \phi \rd \mu: \phi \text { is a simple function on E and } \phi \le f}$

Notation

The Lebesgue integral is frequently abbreviated as $\ds \int_E \phi$ or just $\ds \int \phi$.

If $E$ is the closed interval $\closedint a b$, we frequently write:

$\ds \int_a^b f = \int_E f$

Historically, the notations $\ds \int \map f x \rd x$ and $\ds \int f \rd x$ are used for the Lebesgue integral in place of the formally correct $\ds \int f \rd \lambda^n$.

Also see

• Results about Lebesgue integrals can be found here.

Source of Name

This entry was named for Henri Léon Lebesgue.

Historical Note

The concept of a Lebesgue integral was inspired by Bernhard Riemann's own definition of an integral in his paper Ueber die Darstellbarkeit einer Function durch eine trigonometrische Reihe of $1854$, on the subject of Fourier series.

Sources

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• 2005: René L. Schilling: Measures, Integrals and Martingales ... (previous) ... (next): $\S 10$