STAT 450 Final Examination {Richard Lockhart 3 December 1990 =1= Instructions: This is an open book exam. You may use notes, books and a calculator. The exam is out of 60. Each question is worth 10 marks. Since some questions are much harder than others you would be well advised to make sure you find the ones you can do quickly and do them well. In Q 1 part a) is worth 8, part b) 2. In Q 2, the parts are worth 3, 4 and 3; you may well be able to do c) without being able to do a) or b). In this case a well done version of part c) might be worth as much as 5 out of 10. In Q 5 the parts are worth 5, 2, 2 and 1. In Q 6 the parts are worth 3 each. The extra 2 marks are bonus marks for part d) of that question. DON'T PANIC.
1) Suppose U and V are independent random variables each with the same density
a) Find the density of .
b) Suppose a test statistic has the distribution of T. Derive a
formula for the upper critical point of the test statistic.
2) Suppose has a multivariate normal distribution with
mean vector
and variance covariance matrix
where
is a known diagonal
matrix.
a) Give a general formula for the log-likelihood
. Your answer should be written in matrix form.
b) Let . Let
. What is the distribution of
? Show that
satisfies a linear model and identify the design matrix
for this
linear model.
c) For the special case and
derive the likelihood equations.
3) Suppose that are independent standard normal
variables. What is the distribution of
?
4) Suppose that are independent random variables
and that
are the corresponding values of some covariate.
Suppose that the density of
is
where is an unknown parameter. Find
the log-likelihood, the score function and the Fisher information. You may
use without proof the fact that
.
5) Consider the salmon data discussed in class. Imagine that the
researcher begins with the model
Fitting this model by least squares, the error sum of squares is 2.231177.
For the model
the error sum of squares is
2.59839. For the model
the error sum of
squares is 2.641787. For the model
the error sum of
squares is 3.144104. There are 20 data points.
a) Test the hypothesis that and
using
this information.
b) Now consider the model .
Let
be the error sum of squares when this model is fitted
by least squares. Let
be the corresponding least squares
estimates. Show that the MLE of
is
and evaluate the log-likelihood,
. (The answer is a number which can be calculated from the
information given in this question.)
c) Use the idea in b) to calculate the profile likelihood
which is the maximum of the log
likelihood for the model
.
d) Now compute a P-value for the likelihood ratio test statistic
.
6) A regression model is
fitted. It is found that
and that
There are 23 data points. The error sum of squares is 80.
a) Give a 90% confidence interval for .
b) Test the hypothesis that .
c) A new observation is planned; the row in the design matrix for this new observation would be 1,-1,2. Give a 95% prediction interval for the new Y.
d) Assume that in fact . What is the
distribution of
?