ABSTRACT

Generalized Linear Models (GLMs) allow many statistical analyses to be extended to important statistical distributions other than the Normal distribution. While numerous books exist on how to analyse data using a GLM, little information is available on how to collect the data that are to be analysed in this way.

This is the first book focusing specifically on the design of experiments for GLMs. Much of the research literature on this topic is at a high mathematical level, and without any information on computation. This book explains the motivation behind various techniques, reduces the difficulty of the mathematics, or moves it to one side if it cannot be avoided, and gives examples of how to write and run computer programs using R.

Features

  • The generalisation of the linear model to GLMs
  • Background mathematics, and the use of constrained optimisation in R
  • Coverage of the theory behind the optimality of a design
  • Individual chapters on designs for data that have Binomial or Poisson distributions
  • Bayesian experimental design
  • An online resource contains R programs used in the book

This book is aimed at readers who have done elementary differentiation and understand minimal matrix algebra, and have familiarity with R. It equips professional statisticians to read the research literature. Nonstatisticians will be able to design their own experiments by following the examples and using the programs provided.

chapter Chapter 1|20 pages

Generalized linear models

chapter Chapter 2|27 pages

Background Material

chapter Chapter 3|40 pages

The Theory Underlying Design

chapter Chapter 4|60 pages

The Binomial Distribution

chapter Chapter 5|21 pages

The Poisson Distribution

chapter Chapter 6|20 pages

Several Other Distributions

chapter Chapter 7|27 pages

Bayesian Experimental Design