Mathematical Methods for Physics and Engineering : A Comprehensive Guide

(Darren Dugan) #1

STATISTICS


31.5.3 Efficiency of ML estimators

We showed in subsection 31.3.2 that Fisher’s inequality puts a lower limit on the


varianceV[aˆ] of any estimator of the parametera. Under our hypothesisHon


p. 1255, the functional form of the population is given by the likelihood function,


i.e.P(x|a,H)=L(x;a). Thus, if this hypothesis is correct, we may replacePby


Lin Fisher’s inequality (31.18), which then reads


V[aˆ]≥

(
1+

∂b
∂a

) 2 /
E

[

∂^2 lnL
∂a^2

]
,

wherebis the bias in the estimatoraˆ. We usually denote the RHS byVmin.


An important property of ML estimators is thatifthere exists an efficient

estimatorˆaeff,i.e.oneforwhichV[aˆeff]=Vmin,thenitmustbe the ML estimator


or some function thereof. This is easily shown by replacingPbyLin the proof


of Fisher’s inequality given in subsection 31.3.2. In particular, we note that the


equality in (31.22) holds only ifh(x)=cg(x), wherecis a constant. Thus, if an


efficient estimatoraˆeffexists, this is equivalent to demanding that


∂lnL
∂a

=c[aˆeff−α(a)].

Now, the ML estimatorˆaMLis given by


∂lnL
∂a





a=aˆML

=0 ⇒ c[aˆeff−α(ˆaML)] = 0,

which, in turn, implies thataˆeffmust be some function ofˆaML.


Show that the ML estimatorτˆgiven in (31.71) is an efficient estimator of the parameterτ.

As shown in (31.70), the log-likelihood function in this case is


lnL(x;τ)=−

∑N


i=1

(


lnτ+

xi
τ

)


.


Differentiating twice with respect toτ, we find


∂^2 lnL
∂τ^2

=


∑N


i=1

(


1


τ^2


2 xi
τ^3

)


=


N


τ^2

(


1 −


2


τN

∑N


i=1

xi

)


, (31.77)


and so the expectation value of this expression is


E

[


∂^2 lnL
∂τ^2

]


=


N


τ^2

(


1 −


2


τ

E[xi]

)


=−


N


τ^2

,


where we have used the fact thatE[x]=τ. Settingb= 0 in (31.18), we thus find that for
anyunbiased estimator ofτ,


V[τˆ]≥

τ^2
N

.


From (31.76), we see that the ML estimatorˆτ=



ixi/Nis unbiased. Moreover, using
the fact thatV[x]=τ^2 , it follows immediately from (31.40) thatV[τˆ]=τ^2 /N. Thusτˆis a
minimum-variance estimator ofτ.

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