Characteristic function: Difference between revisions

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In [[set theory]], the '''characteristic function''' or '''indicator function''' of a [[subset]] ''X'' of a set ''X'' is the function, often denoted χ<sub>''A''</sub> or ''I''<sub>''A''</sub>,  from ''S'' to the set {0,1} which takes the value 1 on elements of ''X'' and 0 otherwise.
We can express elementary set-theoretic operations in terms of characteristic functions:
*[[Empty set]]: <math>\chi_\emptyset = 0 ;\,</math>
*[[Intersection]]: <math>\chi_{A \cap B} = \min\{\chi_A,\chi_B\} = \chi_A \cdot \chi_B ;\,</math>
*[[Union]]: <math>\chi_{A \cup B} = \max\{\chi_A,\chi_B\} = \chi_A + \chi_B - \chi_A \cdot \chi_B ;\,</math>
*[[Symmetric difference]]: <math>\chi_{A \bigtriangleup B} = \chi_A + \chi_B \pmod 2 ;\,</math>
*[[Inclusion]]: <math>A \subseteq B \Leftrightarrow \chi_A \le \chi_B .\,</math>
In [[mathematics]], '''''characteristic function''''' can refer to any of several distinct concepts:
In [[mathematics]], '''''characteristic function''''' can refer to any of several distinct concepts:


* The most common and universal usage is as a synonym for [[indicator function]], that is the function
::<math>\mathbf{c}_X: S \to \{0, 1\}</math>
:which for every subset ''X'' of ''S'', has value 1 at points of ''X'' and 0 at points of ''S''&nbsp;&minus;&nbsp;''X''.


* The [[characteristic function (convex analysis)|characteristic function]] in [[convex analysis]]:
* The [[characteristic function (convex analysis)|characteristic function]] in [[convex analysis]]:
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* The [[cooperative game|characteristic function]] in [[game theory]].
* The [[cooperative game|characteristic function]] in [[game theory]].
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In [[set theory]], the '''characteristic function''' or '''indicator function''' of a [[subset]] ''A'' of a [[set (mathematics)|set]] ''X'' is the function, often denoted χ<sub>''A''</sub> or ''I''<sub>''A''</sub>,  from ''X'' to the set {0,1} which takes the value 1 on elements of ''A'' and 0 otherwise.
We can express elementary set-theoretic operations in terms of characteristic functions:
*[[Empty set]]: <math>\chi_\emptyset = 0 ;\,</math>
*[[Intersection]]: <math>\chi_{A \cap B} = \min\{\chi_A,\chi_B\} = \chi_A \cdot \chi_B ;\,</math>
*[[Union]]: <math>\chi_{A \cup B} = \max\{\chi_A,\chi_B\} = \chi_A + \chi_B - \chi_A \cdot \chi_B ;\,</math>
*[[Symmetric difference]]: <math>\chi_{A \bigtriangleup B} = \chi_A + \chi_B \pmod 2 ;\,</math>
*[[Inclusion]]: <math>A \subseteq B \Leftrightarrow \chi_A \le \chi_B .\,</math>

Revision as of 12:40, 10 January 2009

In set theory, the characteristic function or indicator function of a subset X of a set X is the function, often denoted χA or IA, from S to the set {0,1} which takes the value 1 on elements of X and 0 otherwise.

We can express elementary set-theoretic operations in terms of characteristic functions:

  • Empty set:
  • Intersection:
  • Union:
  • Symmetric difference:
  • Inclusion:


In mathematics, characteristic function can refer to any of several distinct concepts:


where "E" means expected value. See characteristic function (probability theory).