Ridge Functions
Ridge Functions
£111.00
GBPRidge functions are a rich class of simple multivariate functions which have found applications in a variety of areas. These include partial differential equations (where they are sometimes termed 'plane waves'), computerised tomography, projection pursuit in the analysis of large multivariate data sets, the MLP model in neural networks, Waring's problem over linear forms, and approximation theory. Ridge Functions is the first book devoted to studying them as entities in and of themselves. The author describes their central properties and provides a solid theoretical foundation for researchers working in areas such as approximation or data science. He also includes an extensive bibliography and discusses some of the unresolved questions that may set the course for future research in the field.
- First book devoted to ridge functions
- Reviews current knowledge in the field and points to potential areas for development
- Will interest researchers from a variety of fields who encounter ridge functions
Product details
August 2015Adobe eBook Reader
9781316435427
0 pages
0kg
4 b/w illus.
This ISBN is for an eBook version which is distributed on our behalf by a third party.
Table of Contents
- Preface
- Glossary of selected symbols
- 1. Introduction
- 2. Smoothness
- 3. Uniqueness
- 4. Identifying functions and directions
- 5. Polynomial ridge functions
- 6. Density and representation
- 7. Closure
- 8. Existence and characterization of best approximations
- 9. Approximation algorithms
- 10. Integral representations
- 11. Interpolation at points
- 12. Interpolation on lines
- References
- Supplemental references
- Author index
- Subject index.
