31.4 SOME BASIC ESTIMATORS
(known) constants, it is immediately clear thatE[νˆr]=νr,andsoνˆris an unbiased
estimator ofνr. It is also possible to obtain an expression forV[ˆνr], though the
calculation is somewhat lengthy.
In the case where the population meanμ 1 isnotknown, the situation is morecomplicated. We saw in subsection 31.4.2 that the second sample momentn 2 (or
s^2 )isnotan unbiased estimator ofν 2 (orσ^2 ). Similarly, therthcentralmoment of
a sample,nr, is not an unbiased estimator of therth population central moment
νr. However, in all cases the bias becomes negligible in the limit of largeN.
As we also found in the same subsection, there are complications in calculatingthe expectation and variance ofn 2 ; these complications increase considerably for
generalr. Nevertheless, we have derived already in this chapterexactexpressions
for the expectation value of the first few sample central moments, which are valid
for samples of any sizeN. From (31.40), (31.43) and (31.46), we find
E[n 1 ]=0,E[n 2 ]=N− 1
Nν 2 , (31.54)E[n^22 ]=N− 1
N^3[(N−1)ν 4 +(N^2 − 2 N+3)ν 22 ].By similar arguments it can be shown that
E[n 3 ]=(N−1)(N−2)
N^2ν 3 , (31.55)E[n 4 ]=N− 1
N^3[(N^2 − 3 N+3)ν 4 +3(2N−3)ν^22 ]. (31.56)From (31.54) and (31.55), we see that unbiased estimators ofν 2 andν 3 are
ˆν 2 =N
N− 1n 2 , (31.57)ˆν 3 =N^2
(N−1)(N−2)n 3 , (31.58)where (31.57) simply re-establishes our earlier result thatσ̂^2 =Ns^2 /(N−1) is an
unbiased estimator ofσ^2.
Unfortunately, the pattern that appears to be emerging in (31.57) and (31.58)isnotcontinued for higherr, as is seen immediately from (31.56). Nevertheless,
in the limit of largeN, the bias becomes negligible, and often one simply takes
ˆνr=nr. For largeN, it may be shown that
E[nr]≈νrV[nr]≈1
N(ν 2 r−νr^2 +r^2 ν 2 ν^2 r− 1 − 2 rνr− 1 νr+1)Cov[nr,ns]≈1
N(νr+s−νrνs+rsν 2 νr− 1 νs− 1 −rνr− 1 νs+1−sνs− 1 νr+1)