Introduction to IP and ATM Design and Performance: With Applications Analysis Software / Edition 2 available in Hardcover
- Pub. Date:
Many engineers and students experience difficulty in making sense of issues associated with IP and ATM teletraffic techniques. This is partly because of the subject itself: networks are flexible, complicated, and still evolving. However, some of the difficulties arise because of the advanced mathematical methods that have been applied to provide analytic tools. The research literature abounds with many and varied analytical approaches applied to a bewildering array of traffic mixes, switch designs and traffic control mechanisms.
Introduction to IP and ATM Design and Performance provides: an introduction to IP and ATM traffic issues; performance evaluation using analysis and simulation; presentation of key formulas describing traffic and queueing behaviour and practical examples, graphs and tables for the design of wide area networks. Particular areas addressed include the fundamental traffic control functions: connection admission control; usage parameter control; priority control; queue scheduling and buffer management.
· Clear Expansion of typical traffic and queueing behaviour
· Simple exposition of fundamental performance evaluation methods and techniques for ATM and IP
· All formulas are available in MathCAD files on the related web-site
· Avoids the use of advanced mathematical methods
This simple intuitive approach is easy to follow and will benefit both engineers in the telecommunications industry and undergraduate and postgraduate students in telecommunications, communications engineering, computer engineering courses.
|Product dimensions:||6.85(w) x 9.78(h) x 0.91(d)|
About the Author
J. M. Pitts is the author of Introduction to IP and ATM Design and Performance: With Applications Analysis Software, 2nd Edition, published by Wiley.
J. A. Schormans is the author of Introduction to IP and ATM Design and Performance: With Applications Analysis Software, 2nd Edition, published by Wiley.
Table of Contents
1 An Introduction to the Technologies of IP and ATM
2 Traffic Issues and Solutions
3 Teletraffic engineering
4 Performance evaluation
5 Fundamentals of Simulation
6 Traffic Models
ATM QUEUEING AND TRAFFIC CONTROL
7 Basic Cell Switching
8 Cell scale queuing
9 Burst scale queuing
10 Connection admission control
11 Usage parameter control
12 Priority control
IP PERFORMANCE AND TRAFFIC MANAGEMENT
13 Basic packet queuing
14 Resource reservation
15 IP buffer management
16 Self-similar traffic