Mathematical Methods for Physics and Engineering : A Comprehensive Guide

(Darren Dugan) #1

31.3 ESTIMATORS AND SAMPLING DISTRIBUTIONS


For the 90% central confidence interval, we requireα=β=0.05. From table 30.3, we
find


Φ−^1 (1−α)=Φ−^1 (0.95) = 1. 65 ,

and using (31.31) and (31.32) we obtain


a−= ̄x− 1. 65 σ ̄x=1. 11 −(1.65)(0.32) = 0. 58 ,
a+= ̄x+1. 65 σ ̄x=1.11 + (1.65)(0.32) = 1. 64.

Thus, the 90% central confidence interval onμis [0. 58 , 1 .64]. For comparison, the true
value used to create the sample wasμ=1.


In the case where the standard errorσaˆin (31.33) is not known in advance,

one must use a valueσˆaˆestimated from the sample. In principle, this complicates


somewhat the construction of confidence intervals, since properly one should


consider the two-dimensional joint sampling distributionP(a,ˆσˆˆa|a). Nevertheless,


in practice, providedσˆaˆis a fairly good estimate ofσaˆthe above procedure may


be applied with reasonable accuracy. In the special case where the sample values


xiare drawn from a Gaussian distribution with unknownμandσ,itisinfact


possible to obtainexactconfidence intervals on the meanμ, for a sample of any


sizeN, using Student’st-distribution. This is discussed in subsection 31.7.5.


31.3.6 Estimation of several quantities simultaneously

Suppose one uses a samplex 1 ,x 2 ,...,xNto calculate the values of several es-


timatorsaˆ 1 ,aˆ 2 ,...,aˆM(collectively denoted byaˆ) of the quantitiesa 1 ,a 2 ,...,aM


(collectively denoted bya) that describe the population from which the sample was


drawn. The joint sampling distribution of these estimators is anM-dimensional


PDFP(aˆ|a) given by


P(aˆ|a)dMˆa=P(x|a)dNx.

Sample valuesx 1 ,x 2 ,...,xNare drawn independently from a Gaussian distribution with
meanμand standard deviationσ. Suppose we choose the sample mean ̄xand sample stan-
dard deviationsrespectively as estimatorsμˆandσˆ. Find the joint sampling distribution of
these estimators.

Since each data valuexiin the sample is assumed to be independent of the others, the
joint probability distribution of sample values is given by


P(x|μ, σ)=(2πσ^2 )−N/^2 exp

[




i(xi−μ)

2

2 σ^2

]


.


We may rewrite the sum in the exponent as follows:


i

(xi−μ)^2 =


i

(xi− ̄x+x ̄−μ)^2

=



i

(xi− ̄x)^2 +2( ̄x−μ)


i

(xi− ̄x)+


i

( ̄x−μ)^2

=Ns^2 +N( ̄x−μ)^2 ,
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