E-Book, Englisch, 918 Seiten
E-Book, Englisch, 918 Seiten
Reihe: Devices, Circuits, and Systems
ISBN: 978-1-4398-4637-7
Verlag: CRC Press
Format: PDF
Kopierschutz: Adobe DRM (»Systemvoraussetzungen)
Omnipresent in society, telecom networks integrate a wide range of technologies. These include quantum field theory for the study of optical amplifiers, software architectures for network control, abstract algebra required to design error correction codes, and network, thermal, and mechanical modeling for equipment platform design.
Illustrating how and why network developers make technical decisions, this book takes a practical engineering approach to systematically assess the network as a whole—from transmission to switching. Emphasizing a uniform bibliography and description of standards, it explores existing technical developments and the potential for projected alternative architectural paths, based on current market indicators.
The author characterizes new device and equipment advances not just as quality improvements, but as specific responses to particular technical market necessities. Analyzing design problems to identify potential links and commonalities between different parts of the system, the book addresses interdependence of these elements and their individual influence on network evolution. It also considers power consumption and real estate, which sometimes outweigh engineering performance data in determining a product’s success.
To clarify the potential and limitations of each presented technology and system analysis, the book includes quantitative data inspired by real products and prototypes. Whenever possible, it applies mathematical modeling to present measured data, enabling the reader to apply demonstrated concepts in real-world situations. Covering everything from high-level architectural elements to more basic component physics, its focus is to solve a problem from different perspectives, and bridge descriptions of well-consolidated solutions with newer research trends.
Zielgruppe
Professionals working with telecom carriers, system vendors, universities, technical service companies, and component vendors
Autoren/Hrsg.
Fachgebiete
Weitere Infos & Material
Introduction
Book Content and Organization
Using This Book
Acknowledgments
Drivers for Telecommunication Network Evolution
Market of Telecom Carriers
Requirements for Next Generation Networks
Networks Fundamentals and Present Architectures
Network Infrastructure Architecture
Network Functional Architecture
Network Convergence over IP
Comparison among Different Core Architectures
Technology for Telecommunications: Optical Fibers, Amplifiers, and Passive Devices
Optical Fibers for Transmission
Optical Fiber Amplifiers
Optical Filters
Technology for Telecommunications: Integrated Optics and Microelectronics
Semiconductor Lasers
Semiconductor Amplifiers
PIN and APD Photodiodes
Optical Modulation Devices
Optical Switches
Electronic Components
Electronics for Transmission and Routing
Interface Modules and Transceivers
Transmission Systems Architectures and Performances
Intensity Modulation and Direct Detection Transmission
Intensity Modulation and Direct Detection Systems Using Optical Amplifiers
Alternative Modulation Formats
Hardware Architecture of Optical Transmission Systems
Switching Systems: Architecture and Performances
Space Division Switch Fabrics
Time Division Switch Fabrics
Wavelength Division Switch Fabrics
Hardware Platforms for Switching Network Elements
On the Performances of Core Switching Machines
Circuit Switching in the Transport Layer
Packet Switching at MPLS and IP Layers: Routers
Packet Switching at Ethernet Layer: Carrier Class Ethernet Switches
Convergent Network Management and Control Plane
ASON Architecture
GMPLS Architecture
Design and Optimization of ASON/GMPLS Networks
GMPLS Network Design for Survivability
Impact of ASON/GMPLS on Carriers OPEX
Next-Generation Transmission Systems Enabling Technologies, Architectures, and Performances
100 Gbit/s Transmission Issues
Multilevel Optical Transmission
Alternative and Complementary Transmission Techniques
Design Rules for 100 Gbit/s Long Haul Transmission Systems
Summary of Experimental 100 Gbit/s Systems Characteristics
Next-Generation Networking: Enabling Technologies, Architectures, and Performances
Optical Digital Network
Transparent Optical Transport Network
Transparent Optical Packet Network (T-OPN)
The New Access Network Systems and Enabling Technologies
TDMA and TDM Overlay Passive Optical Network
WDM Passive Optical Network
WDM-PON versus GPON and XG-PON Performance Comparison
Enabling Technologies for Gbit/s Capacity Access
Appendix A: SDH/SONET Signaling
Appendix B: Spanning Tree Protocol
Appendix C: Inter-Symbol Interference Indexes Summation Rule
Appendix D: Fiber Optical Amplifiers: Analytical Modeling
Appendix E: Space Division Switch Fabric Performance Evaluation
Appendix F: Acronyms
