Ordering block designs : gray codes, universal cycles and configuration orderings
The study of combinatorial block designs is a vibrant area of combinatorial mathematics with connections to finite geometries, graph theory, coding theory and statistics.¡The practice of ordering combinatorial objects can trace its roots to bell ringing which originated in 17th century England, but only emerged as a significant modern research area with the work of F. Gray and N. de Bruijn.¡ These two fascinating areas of mathematics are brought together for the first time in this book. It presents new terminology and concepts which unify existing and recent results from a wide variety of sources. In order to provide a complete introduction and survey, the book begins with background material on combinatorial block designs and combinatorial orderings, including Gray codes -- the most common and well-studied combinatorial ordering concept -- and universal cycles.¡The central chapter discusses how ordering concepts can be applied to block designs, with definitions from existing (configuration orderings) and new (Gray codes and universal cycles for designs) research.¡Two chapters are devoted to a survey of results in the field, including illustrative proofs and examples.¡The book concludes with a discussion of connections to a broad range of applications in computer science, engineering and statistics. This book will appeal to both graduate students and researchers.¡Each chapter contains worked examples and proofs, complete reference lists, exercises and a list of conjectures and open problems.¡Practitioners will also find the book appealing for its accessible, self-contained introduction to the mathematics behind the applications
eBook, English, ©2012
Springer, New York, NY, ©2012
1 online resource
9781461443254, 9781461443247, 1461443253, 1461443245
- Introduction.- Background.- Ordering the Blocks of Designs.- Results in Configuration Ordering.- Results in Gray Codes and Universal Cycles for Designs.-Applications.- Bibliography.- Index.