Indicator vector: Difference between revisions

In mathematics, the indicator vector, characteristic vector, or incidence vector of a subset T of a set S is the vector ${\displaystyle x_T:=(x_s{)}_{s\in S}}$ such that ${\displaystyle x_s=1}$ if ${\displaystyle s\in T}$ and ${\displaystyle x_s=0}$ if ${\displaystyle s\notin T.}$

If S is countable and its elements are numbered so that ${\displaystyle S=\{s_1,s_2,\dots ,s_n\}}$, then ${\displaystyle x_T=(x_1,x_2,\dots ,x_n)}$ where ${\displaystyle x_i=1}$ if ${\displaystyle s_i\in T}$ and ${\displaystyle x_i=0}$ if ${\displaystyle s_i\notin T.}$

To put it more simply, the indicator vector of T is a vector with one element for each element in S, with that element being one if the corresponding element of S is in T, and zero if it is not.^[1][2][3]

An indicator vector is a special (countable) case of an indicator function.

If S is the set of natural numbers ${\displaystyle \mathbb{N}}$, and T is some subset of the natural numbers, then the indicator vector is naturally a single point in the Cantor space: that is, an infinite sequence of 1's and 0's, indicating membership, or lack thereof, in T. Such vectors commonly occur in the study of arithmetical hierarchy.

Template:Reflist