Mathematical Methods for Physics and Engineering : A Comprehensive Guide

(Darren Dugan) #1

31.5 MAXIMUM-LIKELIHOOD METHOD


a a

a a

L(x;a) L(x;a)

L(x;a) L(x;a)

aˆ aˆ

ˆa aˆ

(a) (b)

(c) (d)

Figure 31.6 Typical shapes of one-dimensional likelihood functionsL(x;a)
encountered in practice, when, for illustration purposes, it is assumed that the
parameterais restricted to the range zero to infinity. The ML estimator in
the various cases occurs at: (a) the only stationary point; (b) one of several
stationary points; (c) an end-point of the allowed parameter range that is not
a stationary point (although stationary points do exist); (d) an end-point of
the allowed parameter range in which no stationary point exists.

31.5.1 The maximum-likelihood estimator

Since the likelihood functionL(x;a) gives the probability density associated with


any particular set of values of the parametersa, our best estimateaˆof these


parameters is given by the values ofafor whichL(x;a) is a maximum. This is


called themaximum-likelihood estimator(or ML estimator).


In general, the likelihood function can have a complicated shape when con-

sidered as a function ofa, particularly when the dimensionality of the space of


parametersa 1 ,a 2 ,...,aMis large. It may be that the values of some parameters


are either known or assumed in advance, in which case the effective dimension-


ality of the likelihood function is reduced accordingly. However, even when the


likelihood depends on just a single parametera(either intrinsically or as the


result of assuming particular values for the remaining parameters), its form may


be complicated when the sample sizeNis small. Frequently occurring shapes of


one-dimensional likelihood functions are illustrated in figure 31.6, where we have


assumed, for definiteness, that the allowed range of the parameterais zero to


infinity. In each case, the ML estimateˆais also indicated. Of course, the ‘shape’ of


higher-dimensional likelihood functions may be considerably more complicated.


In many simple cases, however, the likelihood functionL(x;a) has a single
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