Limit this search to....

Mathematical Theory of Nonblocking Switching Networks, the (2nd Edition)
Contributor(s): Hwang, Frank Kwang-Ming (Author)
ISBN: 9812560424     ISBN-13: 9789812560421
Publisher: World Scientific Publishing Company
OUR PRICE:   $73.15  
Product Type: Hardcover
Published: October 2004
Qty:
Temporarily out of stock - Will ship within 2 to 5 weeks
Annotation: The first edition of this book was the first to cover in depth the mathematical theory of nonblocking multistage interconnecting networks, which is applicable to both communication and computer networks. This comprehensively updated new edition not only introduces the classical theory of the fundamental point-to-point network but also has a renewed emphasis on the latest multicast and multirate networks. The book can serve as either a one- or two-semester textbook for graduate students of information science, (electronic) communications, and applied mathematics. In addition, as all the relevant literature is organized and evaluated under one structured framework, the volume is an essential reference for researchers in those areas.
Additional Information
BISAC Categories:
- Mathematics | Combinatorics
- Computers | Computer Science
- Technology & Engineering | Electrical
Dewey: 004.66
Series: Series on Applied Mathematics
Physical Information: 0.68" H x 6.38" W x 9.01" (0.95 lbs) 200 pages
 
Descriptions, Reviews, Etc.
Publisher Description:
The first edition of this book covered in depth the mathematical theory of nonblocking multistage interconnecting networks, which is applicable to both communication and computer networks. This comprehensively updated version puts more emphasis to the multicast and multirate networks which are under fast development recently due to their wide applications. This comprehensively updated new edition not only introduces the classical theory of the fundamental point-to-point network but also has a renewed emphasis on the latest multicast and multirate networks. The book can serve as either a one- or two-semester textbook for graduate students of information science, (electronic) communications, and applied mathematics. In addition, as all the relevant literature is organized and evaluated under one structured framework, the volume is an essential reference for researchers in those areas.