The simplest functions you will ever integrate, hence the name.
Definition
Let be a measure space. A measurable function is a simple function[1] if is a finite subset of . The standard representation[1] for a simple function is given by
,
where is the indicator function on the disjoint sets that partition , where .
Integration of Simple Functions
These functions earn their name from the simplicity in which their integrals are defined[2]. Let be the space of all measurable functions from to Then
where by convention, we let . Note that is equivalent to and that some arguments may be omitted when there is no confusion.
Furthermore, for any , we define
Properties of Simple Functions
Given simple functions , the following are true[2]:
- if ;
- ;
- if , then ;
- the function is a measure on .
Let and be simple functions with their corresponding standard representations.
We show the first claim. Suppose . Then , implying . Similarly, . Thus, the first statement holds for this case.
Suppose . Then
.
References
- ↑ 1.0 1.1 Craig, Katy. MATH 201A Lecture 11. UC Santa Barbara, Fall 2020.
- ↑ 2.0 2.1 Folland, Gerald B. (1999). Real Analysis: Modern Techniques and Their Applications, John Wiley and Sons, ISBN 0471317160, Second edition.
- ↑ name="Craig">Craig, Katy. MATH 201A Lecture 13. UC Santa Barbara, Fall 2020.