Engineering optical networks /:
Gespeichert in:
| 1. Verfasser: | |
|---|---|
| Format: | Elektronisch E-Book |
| Sprache: | English |
| Veröffentlicht: |
Norwood, MA :
Artech House,
[2018]
|
| Schlagworte: | |
| Online-Zugang: | Volltext |
| Beschreibung: | Written by a leading expert in the field, this book provides a comprehensive introduction to the fundamental concepts of transport and data networks. This resource examines backbone network architectures and functions. The evolution, key components, and techniques of telecommunication networks are presented, including voice and data transmission, fiber optic communication and optical link design. This book explores the photonic network architecture and includes chapters on transport networks, synchronous optical networks, optical transport networks, and dense wavelength division multiplexing.n nProfessionals are brought up-to-speed with the applications and architecture of next generation photonic networks, and are provided with references for all applicable standards. This book offers insight into reality technologies, including virtual reality, augmented reality, mixed relativity, and telecommunication infrastructure challenges. Details on the photonic circuit switched network architecture and photonic packet switched core network are presented. The book concludes with a full treatment of the virtualization and software defined networking ecosystem as well as a discussion on future developments. Publisher abstract. |
| Beschreibung: | 1 online resource : illustrations |
| Bibliographie: | Includes bibliographical references and index. |
| ISBN: | 9781630814496 1630814490 |
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| 500 | |a Written by a leading expert in the field, this book provides a comprehensive introduction to the fundamental concepts of transport and data networks. This resource examines backbone network architectures and functions. The evolution, key components, and techniques of telecommunication networks are presented, including voice and data transmission, fiber optic communication and optical link design. This book explores the photonic network architecture and includes chapters on transport networks, synchronous optical networks, optical transport networks, and dense wavelength division multiplexing.n nProfessionals are brought up-to-speed with the applications and architecture of next generation photonic networks, and are provided with references for all applicable standards. This book offers insight into reality technologies, including virtual reality, augmented reality, mixed relativity, and telecommunication infrastructure challenges. Details on the photonic circuit switched network architecture and photonic packet switched core network are presented. The book concludes with a full treatment of the virtualization and software defined networking ecosystem as well as a discussion on future developments. Publisher abstract. | ||
| 505 | 0 | |a Engineering Optical Networks; Contents; Acknowledgments; Part I Introduction to Telecom Networks: The Conceptual Framework; 1 Telecommunication Networks: Evolution, Key Components, and Techniques; 1.1 Chapter Objectives; 1.2 Evolution of Telecommunication Networks; 1.3 PSTN; 1.3.1 Basic Terminology; 1.4 PSTN Components; 1.4.1 Class 1 Switch; 1.4.2 Class 2 Switch; 1.4.3 Class 3 Switch; 1.4.4 Class 4 Switch; 1.4.5 Class 5 Switch; 1.4.6 Transmission Facilities/Circuits; 1.4.7 Network; 1.4.8 Transmission Media and Signals; 1.5 PSTNs: Advancements; 1.6 Summary; 1.7 Review; 1.7.1 Review Questions. | |
| 505 | 8 | |a 1.7.2 Exercises1.7.3 Research Activities; 1.8 Referred Standards; 1.9 Recommended Reading; 1.9.1 Books; 1.9.2 URLs; References; 2 Voice and Data Transmission; 2.1 Chapter Objectives; 2.2 Introduction; 2.3 Multiplexing; 2.4 PCM; 2.5 Quantization Noise; 2.6 Companding; 2.7 Differential PCM; 2.8 Adaptive DPCM; 2.9 Summary; 2.10 Review; 2.10.1 Review Questions; 2.10.2 Exercises; 2.10.3 Research Activities; 2.11 Referred Standards; 2.12 Recommended Reading; 2.12.1 Books; 2.12.2 URLs; References; 3 Fiber-Optic Communication Fundamentals; 3.1 Chapter Objectives; 3.2 Introduction. | |
| 505 | 8 | |a 3.3 Basics of Light Transmission3.3.1 Modal Propagation; 3.4 Optical Fiber Classification; 3.5 Standard Optical Fiber Designs; 3.6 Types of Optical Fibers; 3.7 Fiber Design Specifications; 3.8 Fiber-Laying Techniques; 3.9 Cable Preparation, Splicing, and Termination; 3.9.1 Cable Preparation; 3.9.2 Splicing; 3.9.3 Fiber Termination; 3.10 Summary; 3.11 Review; 3.11.1 Review Questions; 3.11.2 Exercises; 3.11.3 Research Activities; 3.12 Referred Standards; 3.13 Recommended Reading; 3.13.1 Books; 3.13.2 URLs; References; Selected Bibliography; 4 Optical Link Design; 4.1 Chapter Objectives. | |
| 505 | 8 | |a 4.2 Optical Transmitters4.2.1 Optical Sources; 4.2.2 Modular Optical Interfaces; 4.2.3 Transmitter Design Parameters; 4.3 Optical Receivers; 4.4 Optical Modulation Techniques; 4.5 Optical Connectors; 4.6 Link Budgeting; 4.7 Safety Guidelines; 4.7.1 Causes of Injury; 4.7.2 Maximum Permissible Exposure; 4.7.3 AEL; 4.7.4 Fiber-Handling Techniques; 4.8 Summary; 4.9 Review; 4.9.1 Review Questions; 4.9.2 Exercises; 4.9.3 Research Activities; 4.10 Referred Standards; 4.10 Recommended Reading; 4.10.1 Books; 4.10.2 URLs; References. | |
| 505 | 8 | |a Part II: Photonic Network Architecture: The Immediate Past and Present5 Transport Networks: Prologue; 5.1 Chapter Objectives; 5.2 Introduction; 5.3 Asynchronous Networks; 5.3.1 Bit Stuffing; 5.4 PDH; 5.4.1 CCITT Recommendations; 5.4.2 Interfaces; 5.4.3 Basic Frame Structures; 5.5 Ethernet Over PDH; 5.6 Asynchronous Network Limitations; 5.7 SONET: Evolution; 5.8 Summary; 5.9 Review; 5.9.1 Review Questions; 5.9.2 Exercises; 5.9.3 Research Activities; 5.10 Referred Standards; 5.11 Recommended Reading; 5.11.1 Books; 5.11.2 URLs; 6 Synchronous Optical Networks; 6.1 Chapter Objectives. | |
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| contents | Engineering Optical Networks; Contents; Acknowledgments; Part I Introduction to Telecom Networks: The Conceptual Framework; 1 Telecommunication Networks: Evolution, Key Components, and Techniques; 1.1 Chapter Objectives; 1.2 Evolution of Telecommunication Networks; 1.3 PSTN; 1.3.1 Basic Terminology; 1.4 PSTN Components; 1.4.1 Class 1 Switch; 1.4.2 Class 2 Switch; 1.4.3 Class 3 Switch; 1.4.4 Class 4 Switch; 1.4.5 Class 5 Switch; 1.4.6 Transmission Facilities/Circuits; 1.4.7 Network; 1.4.8 Transmission Media and Signals; 1.5 PSTNs: Advancements; 1.6 Summary; 1.7 Review; 1.7.1 Review Questions. 1.7.2 Exercises1.7.3 Research Activities; 1.8 Referred Standards; 1.9 Recommended Reading; 1.9.1 Books; 1.9.2 URLs; References; 2 Voice and Data Transmission; 2.1 Chapter Objectives; 2.2 Introduction; 2.3 Multiplexing; 2.4 PCM; 2.5 Quantization Noise; 2.6 Companding; 2.7 Differential PCM; 2.8 Adaptive DPCM; 2.9 Summary; 2.10 Review; 2.10.1 Review Questions; 2.10.2 Exercises; 2.10.3 Research Activities; 2.11 Referred Standards; 2.12 Recommended Reading; 2.12.1 Books; 2.12.2 URLs; References; 3 Fiber-Optic Communication Fundamentals; 3.1 Chapter Objectives; 3.2 Introduction. 3.3 Basics of Light Transmission3.3.1 Modal Propagation; 3.4 Optical Fiber Classification; 3.5 Standard Optical Fiber Designs; 3.6 Types of Optical Fibers; 3.7 Fiber Design Specifications; 3.8 Fiber-Laying Techniques; 3.9 Cable Preparation, Splicing, and Termination; 3.9.1 Cable Preparation; 3.9.2 Splicing; 3.9.3 Fiber Termination; 3.10 Summary; 3.11 Review; 3.11.1 Review Questions; 3.11.2 Exercises; 3.11.3 Research Activities; 3.12 Referred Standards; 3.13 Recommended Reading; 3.13.1 Books; 3.13.2 URLs; References; Selected Bibliography; 4 Optical Link Design; 4.1 Chapter Objectives. 4.2 Optical Transmitters4.2.1 Optical Sources; 4.2.2 Modular Optical Interfaces; 4.2.3 Transmitter Design Parameters; 4.3 Optical Receivers; 4.4 Optical Modulation Techniques; 4.5 Optical Connectors; 4.6 Link Budgeting; 4.7 Safety Guidelines; 4.7.1 Causes of Injury; 4.7.2 Maximum Permissible Exposure; 4.7.3 AEL; 4.7.4 Fiber-Handling Techniques; 4.8 Summary; 4.9 Review; 4.9.1 Review Questions; 4.9.2 Exercises; 4.9.3 Research Activities; 4.10 Referred Standards; 4.10 Recommended Reading; 4.10.1 Books; 4.10.2 URLs; References. Part II: Photonic Network Architecture: The Immediate Past and Present5 Transport Networks: Prologue; 5.1 Chapter Objectives; 5.2 Introduction; 5.3 Asynchronous Networks; 5.3.1 Bit Stuffing; 5.4 PDH; 5.4.1 CCITT Recommendations; 5.4.2 Interfaces; 5.4.3 Basic Frame Structures; 5.5 Ethernet Over PDH; 5.6 Asynchronous Network Limitations; 5.7 SONET: Evolution; 5.8 Summary; 5.9 Review; 5.9.1 Review Questions; 5.9.2 Exercises; 5.9.3 Research Activities; 5.10 Referred Standards; 5.11 Recommended Reading; 5.11.1 Books; 5.11.2 URLs; 6 Synchronous Optical Networks; 6.1 Chapter Objectives. |
| ctrlnum | (OCoLC)1027671004 |
| dewey-full | 621.3827 |
| dewey-hundreds | 600 - Technology (Applied sciences) |
| dewey-ones | 621 - Applied physics |
| dewey-raw | 621.3827 |
| dewey-search | 621.3827 |
| dewey-sort | 3621.3827 |
| dewey-tens | 620 - Engineering and allied operations |
| discipline | Elektrotechnik / Elektronik / Nachrichtentechnik |
| format | Electronic eBook |
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| indexdate | 2024-11-27T13:28:14Z |
| institution | BVB |
| isbn | 9781630814496 1630814490 |
| language | English |
| oclc_num | 1027671004 |
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| publisher | Artech House, |
| record_format | marc |
| spelling | Warier, Sudhir, author. Engineering optical networks / Sudhir Warier. Norwood, MA : Artech House, [2018] 1 online resource : illustrations text txt rdacontent computer c rdamedia online resource cr rdacarrier Print version record. Includes bibliographical references and index. Written by a leading expert in the field, this book provides a comprehensive introduction to the fundamental concepts of transport and data networks. This resource examines backbone network architectures and functions. The evolution, key components, and techniques of telecommunication networks are presented, including voice and data transmission, fiber optic communication and optical link design. This book explores the photonic network architecture and includes chapters on transport networks, synchronous optical networks, optical transport networks, and dense wavelength division multiplexing.n nProfessionals are brought up-to-speed with the applications and architecture of next generation photonic networks, and are provided with references for all applicable standards. This book offers insight into reality technologies, including virtual reality, augmented reality, mixed relativity, and telecommunication infrastructure challenges. Details on the photonic circuit switched network architecture and photonic packet switched core network are presented. The book concludes with a full treatment of the virtualization and software defined networking ecosystem as well as a discussion on future developments. Publisher abstract. Engineering Optical Networks; Contents; Acknowledgments; Part I Introduction to Telecom Networks: The Conceptual Framework; 1 Telecommunication Networks: Evolution, Key Components, and Techniques; 1.1 Chapter Objectives; 1.2 Evolution of Telecommunication Networks; 1.3 PSTN; 1.3.1 Basic Terminology; 1.4 PSTN Components; 1.4.1 Class 1 Switch; 1.4.2 Class 2 Switch; 1.4.3 Class 3 Switch; 1.4.4 Class 4 Switch; 1.4.5 Class 5 Switch; 1.4.6 Transmission Facilities/Circuits; 1.4.7 Network; 1.4.8 Transmission Media and Signals; 1.5 PSTNs: Advancements; 1.6 Summary; 1.7 Review; 1.7.1 Review Questions. 1.7.2 Exercises1.7.3 Research Activities; 1.8 Referred Standards; 1.9 Recommended Reading; 1.9.1 Books; 1.9.2 URLs; References; 2 Voice and Data Transmission; 2.1 Chapter Objectives; 2.2 Introduction; 2.3 Multiplexing; 2.4 PCM; 2.5 Quantization Noise; 2.6 Companding; 2.7 Differential PCM; 2.8 Adaptive DPCM; 2.9 Summary; 2.10 Review; 2.10.1 Review Questions; 2.10.2 Exercises; 2.10.3 Research Activities; 2.11 Referred Standards; 2.12 Recommended Reading; 2.12.1 Books; 2.12.2 URLs; References; 3 Fiber-Optic Communication Fundamentals; 3.1 Chapter Objectives; 3.2 Introduction. 3.3 Basics of Light Transmission3.3.1 Modal Propagation; 3.4 Optical Fiber Classification; 3.5 Standard Optical Fiber Designs; 3.6 Types of Optical Fibers; 3.7 Fiber Design Specifications; 3.8 Fiber-Laying Techniques; 3.9 Cable Preparation, Splicing, and Termination; 3.9.1 Cable Preparation; 3.9.2 Splicing; 3.9.3 Fiber Termination; 3.10 Summary; 3.11 Review; 3.11.1 Review Questions; 3.11.2 Exercises; 3.11.3 Research Activities; 3.12 Referred Standards; 3.13 Recommended Reading; 3.13.1 Books; 3.13.2 URLs; References; Selected Bibliography; 4 Optical Link Design; 4.1 Chapter Objectives. 4.2 Optical Transmitters4.2.1 Optical Sources; 4.2.2 Modular Optical Interfaces; 4.2.3 Transmitter Design Parameters; 4.3 Optical Receivers; 4.4 Optical Modulation Techniques; 4.5 Optical Connectors; 4.6 Link Budgeting; 4.7 Safety Guidelines; 4.7.1 Causes of Injury; 4.7.2 Maximum Permissible Exposure; 4.7.3 AEL; 4.7.4 Fiber-Handling Techniques; 4.8 Summary; 4.9 Review; 4.9.1 Review Questions; 4.9.2 Exercises; 4.9.3 Research Activities; 4.10 Referred Standards; 4.10 Recommended Reading; 4.10.1 Books; 4.10.2 URLs; References. Part II: Photonic Network Architecture: The Immediate Past and Present5 Transport Networks: Prologue; 5.1 Chapter Objectives; 5.2 Introduction; 5.3 Asynchronous Networks; 5.3.1 Bit Stuffing; 5.4 PDH; 5.4.1 CCITT Recommendations; 5.4.2 Interfaces; 5.4.3 Basic Frame Structures; 5.5 Ethernet Over PDH; 5.6 Asynchronous Network Limitations; 5.7 SONET: Evolution; 5.8 Summary; 5.9 Review; 5.9.1 Review Questions; 5.9.2 Exercises; 5.9.3 Research Activities; 5.10 Referred Standards; 5.11 Recommended Reading; 5.11.1 Books; 5.11.2 URLs; 6 Synchronous Optical Networks; 6.1 Chapter Objectives. Optical communications. http://id.loc.gov/authorities/subjects/sh85095142 Télécommunications optiques. TECHNOLOGY & ENGINEERING Mechanical. bisacsh Optical communications fast has work: Engineering optical networks (Text) https://id.oclc.org/worldcat/entity/E39PCGXtCVXm8RCrH4JkCpXxtC https://id.oclc.org/worldcat/ontology/hasWork Print version: Warier, Sudhir. Engineering optical networks. Norwood, MA : Artech House, [2018] 1630814474 (OCoLC)1004249930 FWS01 ZDB-4-EBA FWS_PDA_EBA https://search.ebscohost.com/login.aspx?direct=true&scope=site&db=nlebk&AN=1825916 Volltext |
| spellingShingle | Warier, Sudhir Engineering optical networks / Engineering Optical Networks; Contents; Acknowledgments; Part I Introduction to Telecom Networks: The Conceptual Framework; 1 Telecommunication Networks: Evolution, Key Components, and Techniques; 1.1 Chapter Objectives; 1.2 Evolution of Telecommunication Networks; 1.3 PSTN; 1.3.1 Basic Terminology; 1.4 PSTN Components; 1.4.1 Class 1 Switch; 1.4.2 Class 2 Switch; 1.4.3 Class 3 Switch; 1.4.4 Class 4 Switch; 1.4.5 Class 5 Switch; 1.4.6 Transmission Facilities/Circuits; 1.4.7 Network; 1.4.8 Transmission Media and Signals; 1.5 PSTNs: Advancements; 1.6 Summary; 1.7 Review; 1.7.1 Review Questions. 1.7.2 Exercises1.7.3 Research Activities; 1.8 Referred Standards; 1.9 Recommended Reading; 1.9.1 Books; 1.9.2 URLs; References; 2 Voice and Data Transmission; 2.1 Chapter Objectives; 2.2 Introduction; 2.3 Multiplexing; 2.4 PCM; 2.5 Quantization Noise; 2.6 Companding; 2.7 Differential PCM; 2.8 Adaptive DPCM; 2.9 Summary; 2.10 Review; 2.10.1 Review Questions; 2.10.2 Exercises; 2.10.3 Research Activities; 2.11 Referred Standards; 2.12 Recommended Reading; 2.12.1 Books; 2.12.2 URLs; References; 3 Fiber-Optic Communication Fundamentals; 3.1 Chapter Objectives; 3.2 Introduction. 3.3 Basics of Light Transmission3.3.1 Modal Propagation; 3.4 Optical Fiber Classification; 3.5 Standard Optical Fiber Designs; 3.6 Types of Optical Fibers; 3.7 Fiber Design Specifications; 3.8 Fiber-Laying Techniques; 3.9 Cable Preparation, Splicing, and Termination; 3.9.1 Cable Preparation; 3.9.2 Splicing; 3.9.3 Fiber Termination; 3.10 Summary; 3.11 Review; 3.11.1 Review Questions; 3.11.2 Exercises; 3.11.3 Research Activities; 3.12 Referred Standards; 3.13 Recommended Reading; 3.13.1 Books; 3.13.2 URLs; References; Selected Bibliography; 4 Optical Link Design; 4.1 Chapter Objectives. 4.2 Optical Transmitters4.2.1 Optical Sources; 4.2.2 Modular Optical Interfaces; 4.2.3 Transmitter Design Parameters; 4.3 Optical Receivers; 4.4 Optical Modulation Techniques; 4.5 Optical Connectors; 4.6 Link Budgeting; 4.7 Safety Guidelines; 4.7.1 Causes of Injury; 4.7.2 Maximum Permissible Exposure; 4.7.3 AEL; 4.7.4 Fiber-Handling Techniques; 4.8 Summary; 4.9 Review; 4.9.1 Review Questions; 4.9.2 Exercises; 4.9.3 Research Activities; 4.10 Referred Standards; 4.10 Recommended Reading; 4.10.1 Books; 4.10.2 URLs; References. Part II: Photonic Network Architecture: The Immediate Past and Present5 Transport Networks: Prologue; 5.1 Chapter Objectives; 5.2 Introduction; 5.3 Asynchronous Networks; 5.3.1 Bit Stuffing; 5.4 PDH; 5.4.1 CCITT Recommendations; 5.4.2 Interfaces; 5.4.3 Basic Frame Structures; 5.5 Ethernet Over PDH; 5.6 Asynchronous Network Limitations; 5.7 SONET: Evolution; 5.8 Summary; 5.9 Review; 5.9.1 Review Questions; 5.9.2 Exercises; 5.9.3 Research Activities; 5.10 Referred Standards; 5.11 Recommended Reading; 5.11.1 Books; 5.11.2 URLs; 6 Synchronous Optical Networks; 6.1 Chapter Objectives. Optical communications. http://id.loc.gov/authorities/subjects/sh85095142 Télécommunications optiques. TECHNOLOGY & ENGINEERING Mechanical. bisacsh Optical communications fast |
| subject_GND | http://id.loc.gov/authorities/subjects/sh85095142 |
| title | Engineering optical networks / |
| title_auth | Engineering optical networks / |
| title_exact_search | Engineering optical networks / |
| title_full | Engineering optical networks / Sudhir Warier. |
| title_fullStr | Engineering optical networks / Sudhir Warier. |
| title_full_unstemmed | Engineering optical networks / Sudhir Warier. |
| title_short | Engineering optical networks / |
| title_sort | engineering optical networks |
| topic | Optical communications. http://id.loc.gov/authorities/subjects/sh85095142 Télécommunications optiques. TECHNOLOGY & ENGINEERING Mechanical. bisacsh Optical communications fast |
| topic_facet | Optical communications. Télécommunications optiques. TECHNOLOGY & ENGINEERING Mechanical. Optical communications |
| url | https://search.ebscohost.com/login.aspx?direct=true&scope=site&db=nlebk&AN=1825916 |
| work_keys_str_mv | AT wariersudhir engineeringopticalnetworks |