Curriculum Design and Instruction To Teach
High-Performance Communication Networks:
Optical Networks:
Author: Charles Hayes:
Communication networks based on
serial data transmission are the
platform of up-to-date automation
systems. Whether this is office
automation or automation of manufacturing
or process plants, the task remains always
the same, exchanging data between different
devices or participants within a system.
Communication networks provide a number of
advantages over systems in which a
point-to-point line enables only two
participants to communicate with each other.
Special Features Include:
Phases For Conducting a Needs Assessment:
Curriculum Design Supplement:
|a|. Subject-Questions-Answers:
Curriculum Design Plan:
Curriculum Design Goals:
Curriculum Design Objectives:
Instructional Goals:
Instructional Objectives:
Instructional Activities:
Instructional Evaluation Techniques:
Lesson Plans:
Standard Vocabulary:
Learning Objectives:
Key Terms:
A Limited Glimpse:
Topics Include:
* Introduction:
@ Optical Networks:
A. Optical Links:
1. Transmitter:
2. Receiver:
3. Fiber:
4. A Subcarrier Multiplexing:
B. WDM Systems:
C. Optical Cross-Connects:
D. Optical LANs:
1. Single-hop LANs:
2. Multihop LANs:
E. Optical Paths and Networks:
1. Static Wavelength Assignment:
2. Dynamic Wavelength Assignment and Blocking:
3. Ring Networks:
4. Hierarchical Mesh Networks:
5. Optical Networks:
F. Summary:
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* STATE OF THE ART CURRICULUM DESIGN:
* NEW:
* ILLUSTRATIONS:
* PHOTOS:
* BIBLIOGRAPHICAL REFERENCES & INDEX:
* PAPERBACK:
* TRANSPARENT FRONT PAGE:
* BLACK-WHITE-RED OR BLUE BACK PAGE COVER:
* BINDED WIRE-0: BLACK-WHITE-RED OR BLUE:
* 150 WHITE PAGES: 8x11"
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