Book contents
- Frontmatter
- Dedication
- Contents
- List of Algorithms
- Notation
- Preface
- I Classical Methods
- 1 Multidimensional Data
- 2 Principal Component Analysis
- 3 Canonical Correlation Analysis
- 4 Discriminant Analysis
- Problems for Part I
- II Factors and Groupings
- III Non-Gaussian Analysis
- Problems for Part III
- References
- Author Index
- Subject Index
- Data Index
1 - Multidimensional Data
from I - Classical Methods
Published online by Cambridge University Press: 05 June 2014
- Frontmatter
- Dedication
- Contents
- List of Algorithms
- Notation
- Preface
- I Classical Methods
- 1 Multidimensional Data
- 2 Principal Component Analysis
- 3 Canonical Correlation Analysis
- 4 Discriminant Analysis
- Problems for Part I
- II Factors and Groupings
- III Non-Gaussian Analysis
- Problems for Part III
- References
- Author Index
- Subject Index
- Data Index
Summary
Denken ist interessanter als Wissen, aber nicht als Anschauen (Johann Wolfgang von Goethe, Werke – Hamburger Ausgabe Bd. 12, Maximen und Reflexionen, 1749–1832). Thinking is more interesting than knowing, but not more interesting than looking at.
Multivariate and High-Dimensional Problems
Early in the twentieth century, scientists suchas Pearson (1901), Hotelling (1933) and Fisher (1936) developed methods for analysing multivariate data in order to
• understand the structure in the data and summarise it in simpler ways;
• understand the relationship of one part of the data to another part; and
• make decisions and inferences based on the data.
The early methods these scientists developed are linear; their conceptual simplicity and elegance still strike us today as natural and surprisingly powerful. Principal Component Analysis deals with the first topic in the preceding list, Canonical Correlation Analysis with the second and Discriminant Analysis with the third. As time moved on, more complex methods were developed, often arising in areas such as psychology, biology or economics, but these linear methods have not lost their appeal. Indeed, as we have become more able to collect and handle very large and high-dimensional data, renewed requirements for linear methods have arisen. In these data sets essential structure can often be obscured by noise, and it becomes vital to
reduce the original data in such a way that informative and interesting structure in the data is preserved while noisy, irrelevant or purely random variables, dimensions or features are removed, as these can adversely affect the analysis.
- Type
- Chapter
- Information
- Analysis of Multivariate and High-Dimensional Data , pp. 3 - 17Publisher: Cambridge University PressPrint publication year: 2013