1964 PRL symmetry breaking papers

In statistics, Samuelson's inequality, named after the economist Paul Samuelson,^[1] also called the Laguerre–Samuelson inequality,^[2] after the mathematician Edmond Laguerre, proved that every one of any collection x₁, ..., x_n, is within √(n − 1) sample standard deviations of their sample mean. In other words, if we let

${\displaystyle \bar{x}=\frac{x_1+\cdots +x_n}{n}}$

be the sample mean and

${\displaystyle s=\sqrt{\frac{1}{n}{\displaystyle \sum _{i=1}^n}(x_i-\bar{x}{)}^2}}$

be the standard deviation of the sample, then

${\displaystyle \bar{x}-s\sqrt{n-1}\le x_i\le \bar{x}+s\sqrt{n-1}\text{for }i=1,\dots ,n.}$^[3]

Equality holds on the left if and only if the n − 1 smallest of the n numbers are equal to each other, and on the right iff the n − 1 largest ones are equal.

Samuelson's inequality may be considered a reason why studentization of residuals should be done externally.

Relationship to polynomials

Samuelson was not the first to describe this relationship. The first to discover this relationship was probably Laguerre in 1880 while investigating the roots (zeros) of polynomials.^[4][5]

Consider a polynomial

${\displaystyle a_0{x}^n+a_1{x}^{n-1}+\dots +a_{n-1}x+a_n=0}$

Without loss of generality let ${\displaystyle a_0=1}$ and let

${\displaystyle t_1=\sum x_i}$ and ${\displaystyle t_2=\sum x_i^2}$

Then

${\displaystyle a_1=-\sum x_i=-t_1}$

and

${\displaystyle a_2=\sum x_i{x}_j=\frac{t_1^2-t_2}{2}\text{ where }i<j}$

In terms of the coefficients

${\displaystyle t_2=a_1^2-2a_2}$

Laguerre showed that the roots of this polynomial were bounded by

${\displaystyle -a_1/n\pm b\sqrt{n-1}}$

where

${\displaystyle b=\frac{\sqrt{n{t}_2-t_1}}{n}=\frac{\sqrt{n{a}_1^2+a_1-2n{a}_2}}{n}}$

Inspection shows that ${\displaystyle -\frac{a_1}{n}}$ is the mean of the roots and that b is the standard deviation of the roots.

Laguerre failed to notice this relationship with the means and standard deviations of the roots being more interested in the bounds themselves. This relationship permits a rapid estimate of the bounds of the roots and may be of use in their location.

Note

When the coefficients ${\displaystyle a_1}$ and ${\displaystyle a_2}$ are both zero no information can be obtained about the location of the roots.

References

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