Telecommunication Transmission Handbook




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НазваниеTelecommunication Transmission Handbook
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Список литературы


Глава 1

  1. Roger L. Freeman, Telecommunication Transmission Handbook, 4th ed., John Wiley & Sons, New York, 1998.

  2. Fiber Optics System Design, M1L-HDBK-415, US Department of Defense, Washington, DC, 1985.

  3. Govind P. Agrawal, Fiber-Optic Communication Systems, 2nd ed., John Wiley & Sons, New York, 1997.


Глава 2

  1. Govind P. Agrawal, Fiber-Optic Communication Systems, 2nded., John Wiley & Sons, New York, 1997.

  2. Fiber Optics System Design, MIL-HDBK-415, US Department of Defense, Washington, DC, 1985.

  3. Donald J. Sterling, Jr., A Technician's Guide to Fiber Optics, 3rd ed., Delmar Publishers, Albany, NY, 2000.

  4. Introduction of Fiber Optics, Coming Cable Systems, Hickory, NC, 2000.

  5. Fiber Optic Catalog, Belden Wire and Cable Company, Richmond, IN, 1998.

  6. Loose Tube us. Tight Buffered Cable in Outdoor Applications, AEN 26 Rev. 4, Coming Cable Systems, Hickory, NC, 2000.

  7. Coming, Cable Systems LANscape Catalog, Premises Fiber Optic Products Catalog, 7th ed.. Coming Cable Systems, Hickory, NC, January 2000.

  8. The Facts: Matched-Clad vs. Depressed-Clad Fiber, Coming News & Views, Coming, NY, April 1999.

  9. Generic Requirements for Optical Fiber and Optical Fiber Cable, Telcordia (Bellcore) GR-20-CORE Issue 2, Piscataway, NJ, July 1998.

  10. Product flyer, «Corning LEAF® Non-Zero Dispersion-Shifted Single-Mode Fiber» Coming, NY, 1999.


Глава 3

  1. Tyco Electronics, Fiber Optic Division, catalog 1307895, Harrisburg, PA, May 2000.

  2. Corning Cable Systems Design Guide, Release 4, Corning Cable Systems, Hickory, NC, 1999.

  3. An Introduction to Fiber Optic Networking, AMP (Tyco Electronics), Harrisburg, PA, 1995.

  4. Single Fiber Fusion Splicing, Corning Application Note AN 103, Corning, Inc., Corning, NY, June 1999.

  5. Australian Photonics CRC lecture series. From the Internet at http://central.vislab.usyd.edu.au/photonics/devices/networks/coupler, October 2001.

  6. Govind P. Agrawal, Fiber-Optic Communication Systems, 2nd ed., John Wiley & Sons, New York, 1997.

  7. Guide to WDM Technology, 2nded., EXFO Electrical-Optical Engineering Co., Varnier, Quebec, Canada, 2000.

  8. Transmission Characteristics of Passive Optical Components, ITU-T Rec. G.671, ITU Geneva, November 1996.

  9. Generic Requirements for Fiber Branching Components, Telcordia GR-1209-CORE, Issue 3, Piscataway, NJ, March 2001.

  10. The IEEE Standard Dictionary of Electrical and Electronic Terms, 6th ed., IEEE, New York, 1996.

  11. Overview of Selected 1EC (International Electrical Commission) References.


Глава 4

  1. Govind P. Agrawal, Fiber-Optic Communication Systems, 2nd ed., John Wiley & Sons, NY, 1997.

  2. Optical Fibres Systems Planning Guide, CCITT, Geneva, 1998.

  3. Stamatios K. Kartalopoulos, Introduction to DWDM Technology, IEEE Press, New York, 1999.

  4. Fiber Optics System Design, M1L-HDBK-415, US Department of Defense, Washington, DC, February 1985.

  5. Lightwave (Magazine), World-wide Directory of Fiber Optic Communications Products and Services, Pennwell Corp., Tulsa, OK, March 25, 2000.

  6. Lucent Technologies Advance Data Sheet (from the Web), C488-Type Laser Transmitter, Lucent Technologies, Murray Hill, NJ, February 2000. (Now Agere Technologies.)

  7. OKI Technical Review, «Optical Transmitter Module for 10 Gbps Optical Communication Systems,» OKI Electric Industry, Inc., No. 158, Vol. 63, Sunnyvale, CA, April 1997.

  8. Roger L. Freeman, Telecommunication Transmission Handbook, 4th ed., John Wiley & Sons, New York, 1998.

  9. Cindana Tukatte, lolon Inc. «Tunable-laser Technologies vs. Optical-networking Requirements,» Lightwave, March 2001, page 136.

  10. Vince Sykes, K2 Optronics, «External-Cavity Diode Lasers for Ultra-Dense WDM Networks,» Lightwave, March 2001, page 130.

  11. Private communication, lolon, Inc., March 30, 2002.


Глава 5

  1. Govind P. Agrawal, Fiber-Optic Communication Systems, 2nd ed., John Wiley & Sons, New York, 1997.

  2. 1998 New England Photoconductor, from the Web at www.netcorp.net.ici.

  3. The IEEE Standard Dictionary of Electrical and Electronic Terms, 6th ed., IEEE New York, 1996.

  4. Reference Data for Radio Engineers, 5th ed., ITT Howard W. Sams, Indianapolis, IN, 1968.

  5. Roger L. Freeman, Reference Manual for Telecommunication Engineers, 2nd ed., John Wiley & Sons, New York, 1994.

  6. Paul E. Green, Fiber Optic Networks, Prentice-Hall, Englewood Cliffs, NJ, 1993.

  7. A Primer on Photodiode Technology, Centra Vision, Newbury Park, CA, 2000, from the Web at www.west.net/ ~ centro/tech2.htm.

  8. Responsivity of Standard InGaAs Photodiodes, Fermionics, Inc., Simi Valley, CA, from the Web at www.fermionics.com/R1300.htm.

  9. Photodiode Basics, Silicon Sensors, Inc., Dodgeville, WI, 2000, from the Web at www.siliconsensors.com.

  10. Optical Fibres Systems Planning Guide, CCITT, ITU Geneva, 1989.

  11. Avalanche Photodiodes: A Users'Guide, PerkinElmer Optoelectronics, Santa Clara, CA, 2000, from the Web at www.perkinelmer.com.

  12. Private communication, Epitaxx Inc., Mark Itzler on AADs for 10 Gbps applications.

  13. R. J. Mclntyre, Multiplication Noise in Uniform Avalanche Photodiodes, IEEE Transactions on Electron Devices, ED-13, pages 164-168, 1966.

  14. Fiber Optic System Design, M1L-HDBK-415, US Department of Defense, Washington, DC, February 1985.

  15. Optical Interfaces for Equipment and Systems Relating to the Synchronous Digital Hierarchy, ITU-T Rec. G.957, ITU Geneva, July 1999.

  16. Transport Systems Generic Requirements (TSGR): Common Requirements, Bellcore (Telcordia) GR-499-CORE, Issue 2, December 1998, Bellcore (Telcordia), Piscataway, NJ.

  17. Abhay M. Joshi, DC to 65 GHz. Wide Bandwidth InGaAs Photodiodes and Photoreceivers, Fiber Optics Forum, Discovery Semiconductors, Inc., Princeton, NJ, March 2000, from the Web at www.chipsat.com.

  18. Optical Eye Pattern Measurement Procedure, EIA/TIA-526-4 Rev. A, EIA/TIA, Washington, DC, 1997.


Глава 6

  1. Govind P. Agrawal, Fiber-Optic Communication Systems, 2nd ed., John Wiley & Sons, New York, 1997.

  2. The IEEE Standard Dictionary of Electrical and Electronic Terms, 6th ed., IEEE, New York, 1996.

  3. Characteristics of a Dispersion-Shifted Single-Mode Optical Fiber Cable, ITU-T Rec. G.653, ITU Geneva, April 1997.

  4. Guide to WDM Technology Testing, 2nd ed., EXPO Electro-Optical Engineering, Inc., Quebec City, Canada, 2000.

  5. Characteristics of Single Mode Optical Fiber Cable, ITU-T Rec. G.652, ITU Geneva, April 1997.

  6. Characteristics of Non-Zen Dispersion Shifted Single-Mode Optical Fiber Cable, ITU-T Rec. G.655, ITU Geneva, October 1996.

  7. Andre Girard, Handling Special Effects: «Non-Linearity, Chromatic Dispersion, Soliton Waves,» Lightwave, July 2000.

  8. Characteristics of a Cut-off Shifted Single-Mode Optical Fiber Cable, ITU-T Rec. G.654, ITU Geneva, April 1997.

  9. G. Mahike and P. Goessing, Fiber Optic Cables, 3rd ed., Siemens Berlin-Munich, John Wiley & Sons, New York, 1997.

  10. Applications Related Aspects of Optical Fiber Amplifier Devices and Subsystems, ITU-T Rec. G.663, ITU Geneva, October 1996.


Глава 7

  1. Govind P. Agraval, Fiber-Optic Communication Systems, 2nd ed., John Wiley & Sons, New York, 1997.

  2. Guide to WDM Technology Testing, EXPO Electro-Optical Engineering Inc., Quebec City, Canada, 2000.

  3. S. Shimada and H. Ishio, eds., Optical Amplifiers and Their pplications, John Wiley & Sons, Chichester, England, 1992.

  4. Thomas Fuerst, Today's Optical Amplifiers Enable Tomorrow's Optical Layer, Lightwave, July 1997.

  5. Makoto Shimizu, Non-Silica-Based Fiber Amplifiers Open New Wavelength Regions for WDM, Lightwave, November 1999.

  6. The IEEE Standard Dictionary of Electrical and Electronic Terms, 6th ed., IEEE Std-100-96, IEEE Press, New York, 1996.

  7. Application-Related Aspects of Optical Fiber Amplifier Devices and Subsystems, ITU-T Rec. G.663, ITU Geneva, October 1996.

  8. Telcordia Notes on Dense Wavelength Division Multiplexing (DWDM) and Optical Networks, Special Report, SR Notes, Series 02, Issue 1, Telecordia, Piscataway, NJ, May 2000.

  9. SONET Regenerator (SONET RGTR) Equipment Generic Criteria, Technical Reference TR-NWT-000918, Issue 1, Piscataway, NJ, December 1990.

  10. Alan Evans, Raman Amplification Key to Solving Capacity, System-Reach Demands, Corning, Inc., from Lightwave, August 2000, page 69.

  11. Ashiqur Rahman, Design Issues of Distributed Raman Amplifiers for Reduced Noise Accumulation in Long-Haul, Repeatered Transmission, Lightwave, August 2000, page 70.

  12. Introduction to SONET. Hewlett-Packard seminar, Burlington, MA 1993.

  13. Synchronous Optical Network (SONET)—Basic Description including Multiplex Structure, Rates and Formats. ANSI Tl.105-1995, ANSI, New York, 1995.

  14. Private communication, Pierre Talbot, Inc., Quebec City, Canada, April 4, 2002.

  15. Private communication. Dr. Alan Evans, Corning, Inc., Corning, NY, April 4, 2002.


Глава 8

  1. Telecordia Notes on Dense Wavelength-Division Multiplexing (DWDM) and Optical Networks, Special Report, SR-NOTES-SERIES-02, Issue 1, Piscataway, NJ, May 2000.

  2. Stamatios V. Kartalopoulos, Introduction to DWDM Technology, IEEE Press, New York, 2000.

  3. Govind P. Agrawal, Fiber-Optic Communication Systems, 2nd ed., John Wiley & Sons, New York, 1997.

  4. Technical promotional material from the Web at www.sel-rtp.com/products/passives/ Components/ fbg.html, Sumitomo Electric Lightwave Corp., Research Triangle, NC.

  5. Lucent Technologies, from the Web at www.lucent.com/micro/opto, Lucent Technologies, Allentown, PA.

  6. Optical Interfaces for Multi-Channel Systems with Optical Amplifiers, ITU-T Rec. G.692, ITU Geneva, October 1998.

  7. The IEEE Standard Dictionary of Electrical and Electronic Terms, 6th ed., IEEE, New York, December 1996.

  8. Dense Wavelength Division Multiplexing (DWDM), from the Web at www.adc.com, ADC Telecommunications, Minneapolis, MN, August 1998.

  9. Bob Shine and Jerry Bautista, Interieavers Make High-channel-count Systems Economical (Wavesplitter Technologies), Lightwave, August 2000, page 140.

  10. Franck Chatain, Fiber Bragg Grating Technology Passes Light to New Passive Components, Lightwave, March 2001, page 186.

  11. Karen Liu and John Ryan, «The Animals in the Zoo: The Expanding Menagerie of Optical Components,» IEEE Communications Magazine, July 2001, page 110.


Глава 9

    1. Synchronous Optical Network (SONET)—Basic Description Including Multiplex Structure, Rates and Formats, ANSI Tl.105-1995, ANSI, New York, 1995.

    2. Roger L. Freeman, Reference Manual for Telecommunications Engineering, 3rd ed., John Wiley & Sons, New York, 2001.

    3. C. A. Siller and M. Shaft, eds., SONET/SDH, IEEE Press, New York, 1996.

    4. Roger L. Freeman, Telecommunication Transmission Handbook, 4th ed., John Wiley & Sons, New York, 1998.

    5. Network-Node Interface for the Synchronous Digital Hierarchy (SDH), ITU-T Rec. G. 707, ITU Geneva, March 1996.

    6. Synchronous Optical Network (SONET), Transport Systems, Common Generic Criteria, Telecordia GR-253-CORE, Issue 3, Rev. 2, Piscataway, NJ, September 2000.

    7. Introduction to SONET, Seminar, Hewlett-Packard Co., Burlington, MA, November 1993.

    8. SONET Add-Drop Multiplex Equipment (SONET ADM) Generic Criteria, Bellcore, TR-TSY-000496, Issue 2, Bellcore, Piscataway, NJ, 1989.

    9. Automatic Protection Switching for SONET, Telecordia Special Report SR-NWT-001756, Issue 1, Piscataway, NJ, October 1990.

    10. SONET Dual-Fed Unidirectional Path Switched Ring (UPSR) Equipment Generic Criteria, Telcordia GR-1400-CORE, Issue 2, Piscataway, NJ, January 1999.

    11. SONET Bidirectional Line-Switched Ring Equipment Generic Criteria, Telcordia GR-1230-CORE, Issue 4, Piscataway, NJ, December 1998.

    12. Telcordia Notes on the Synchronous Optical Network (SONET), Special Report, SR-NOTES, Series 01, Issue 1, Piscataway, NJ, December 1999.

    13. Network Node Interfaces for Synchronous Digital Hierarchy, ITU-T Rec. СЛОТ, ITU Geneva, March 1996.


Глава 10

  1. Characteristics of a Dispersion-Shifted Single-Mode Optical Fiber Cable, ITU-T Лес.О.653, ITU Geneva, April 1997.

  2. Optical Interfaces for Equipments and Systems Relating to the Synchronous Digital Hierarchy, ITU-T Rec. G.957, ITU Geneva, June 1999.

  3. Generic Reliability Assurance Requirements for Optoelectronic Devices Used in Telecommu­nication Equipment, Telcordia GR-468-CORE, Issue 1, Piscataway, NJ, December 1998.

  4. Generic Requirements for As.furin the Reliability of Components Used in Telecommunication Systems. Telcordia TR-NWT-U00357- Issue 2, Pkscalaway, NJ, October 1993.

  5. Roger L. Freeman, Telecommunication Transmission Handbook, 4th ed., John Wiley & Sons, New York, 1998.

  6. Error Performance Parameters and Objectives for International, Constant Bit Rate Digital Paths at or Above the Primary Rate, ITU-T Rec. G.826, ITU Geneva, February 1999.

  7. Characteristics of Cut-Off Shifted Single-Mode Optic Fiber Cable, ITU-T Rec. G.654, ITU, Geneva, April 1997,

  8. Transmission Characteristics of Passive Optical Components, ITU-T Rec. G.671, ITU, Geneva, November 1996.

  9. The IEEE Standard Dictionary of Electrical and Electronic Terms, 6th ed., IEEE, New York, 1996.

  10. Govind P. Agrawal, Fiber-Optic Communication Systems, 2nd ed., John Wiley & Sons, New York, 1997.

  11. Donald J. Sterling, Jr., Technician's Guide to Fiber Optics, 3rd ed., Dehnar, Albany, NY, 2000.

  12. Optical Interfaces for Multichannel Systems with Amplifiers, ITU-T Rec. 0.692, ITU Geneva, October 1998.

  13. Karen Liu and John Ryan, «All the Animals in the Zoo: The Expanding Menagerie of Optical Components/» IEEE Communications Magazine, page 110, July 2001.


Глава 11

  1. Standard for Physical Location and Protection of Below-Ground Fiber Optic Cable Plant, TIA/EIA-590-A, Telecommunications Industry Association, Washington, DC, January 1997.

  2. Optical Fibres Systems Planning Guide, CC1TT-ITU, Geneva, 1989.

  3. Bob Chomyez, Fiber Optic Installer's Field Manual, McGraw-Hill, New York, 2000.

  4. Digital Line Systems Based on 1544 kbps and 2048 kbps Hierarchy on Optical Fibre Cables, ITU-T Rec. G.955, ITU Geneva, November 1995.

  5. General Features of Optical Fibre Submarine Cable Systems, ITU-T Rec. G.971, ITU Geneva, November 1996.

  6. Characteristics of a Single-Mode Optical Fibre Cable, ITU-T Rec. G.652, ITU Geneva, April 1997.

  7. CommScope HFC Upgrade Manual, Vol. 2, Fiber, CommScope of North Carolina, 1999.


Глава 12

  1. The IEEE Standard Dictionary of Electrical and Electronic Terms, 6th ed., IEEE, New York, 1996.

  2. Reliability Prediction of Electronic Equipment, MIL-STD-217E, US Department of Defense, Washington, DC, 1986.

  3. Reliability Prediction Procedure for Electronic Equipment, Telcordia Technical Reference TR-332, Issue 5, Piscataway, NJ, December 1997.

  4. Reliability and Qualify’ Measurement’s for Telecommunication System (RQMS-Wireline), Telcordia GR-929-CORE, Issue 5, Piscataway, NJ, December 1999.

  5. Parameters and Calculation Methodologies for Reliability and Availability of Fibre Optic Systems, ITU-T Rec. G.911, ITU Geneva, April 1997.

  6. Transport Systems Generic Requirements (TSGR): Common Requirements, Telcordia GR-499-CORE, Issue 2, Piscataway, NJ, December 1998.

  7. SONET Bidirectional Line-Switched Ring Equipment Generic Criteria, Telcordia GR-1230-CORE, Issue 4, Piscatciway, NJ, December 1998.

  8. Synchronous Optical Network (SONET)—Automatic Protection Switching, ANSI Tl.105.01-1998 (prepared by the Alliance for Telecommunications Industry Solutions), ANSI, New York, 1998.

  9. Telcordia Notes on the Synchronous Optical Network (SONET), Telcordia Special Report SR-NOTES-Series-01, Issue 1, Piscataway, NJ, December 1999.

  10. SONET Dual-Fed Unidirectional Path-Switched Ring (UPSR) Equipment Generic Criteria, Telcordia GR-1400-CORE, Issue 2, Piscataway. NJ, January 1999.

  11. Synchronous Digital Hierarchy Management, ITU-T Rec. G.784, ITU Geneva, 2000.

  12. Digital Hierarchy—Layer 1 In-Seruice Digital Transmission Performance Monitoring, ANSI Tl.231-1997, ANSI, New York, 1997.

  13. SONET / SDH: A Sourcebook of Synchronous Networking, Curtis A. Siller, Jr., and Mansoor Shaft, eds., IEEE Press, New York, 199A; see the following articles: Rodney J. Bochm, Progress in Standardization of SONET, IEEE LCS, May 1999. Rony Holler, SDH/SONET-A Network Management Viewpoint, IEEE Network, November 1990.

  14. OTGR Section 12.1: Operations Application Messages—Language for Operations Application Messages, Telcordia GR-831, Piscataway, NJ- November 1996.

  15. Reliability Manual, (Bellcore) Telcordia SR-TSY-000385, Piscataway, NJ, June 1986.


Глава 13

  1. Roger L. Freeman, Telecommunication Transmission Handbook, 1st ed., John Wiley & Sons, New York, 1975.

  2. Roger L. Freeman, Reference Manual for Telecommunication Engineering, 3rd ed., John Wiley & Sons, New York, 2002.

  3. International Computer Power, Dynamic Energy Storage System Extended Ride-through Kinetic Battery (Flywheel Systems), from the Web at www.rotoups.com (01/29/01).

  4. IEEE Recommended Practice for Emergency and Standby Power Systems for Industrial and Commercial Applications, IEEE Std. 446-1987, IEEE, New York, 1987.

  5. Ormat Corp. promotional material for OEC power systems, Ormat Corp., 980 Greg Street, Sparks, Nevada 89431-6039, February 1, 2001 (www.ormat.com).


Глава 14

  1. Walter Ciciora, James Farmer, and David Large, Modem Cable Television Technology, Morgan Kaufmann Publishers, San Francisco, CA 1999.

  2. Electrical Performance for Television Transmission Systems, EIA/TIA-250C, El A/T1A Washington, DC, January 1990.

  3. George Scherer, private communication, Gl/Motorola, Hatsboro, PA, February 15, 2001.

  4. Code of Federal Regulations, 47, Parts 73.600 and 76, US Government Printing Office, Washington, DC, revised October 1996.

  5. Eric Schweitzer, «Return Path Technologies,» Communications Technology, February 2001.

  6. Roger L. Freeman, Telecommunication Transmission Handbook, 4th ed., John Wiley & Sons, New York, 1998.

  7. Roger L. Freeman, Reference Manual for Telecommunication Engineers, John Wiley & Sons, New York, 2002.

  8. HFC Virgraph presentation, ADC Communications, Minneapolis, MN, 1993.

  9. Private communication, Chuck Grothaus, ADC Communications, Jan 31, 2002 (permission to publish).


Глава 15

  1. Commercial Building Telecommunications Cabling Standard, ANSI/T1A/EIA-568B.1, TIA, Arlington, VA, April 12, 2001.

  2. Design Guide, Release 4, Coming Cable Systems, Hickory, NC 28603-0489, March 1999.

  3. Detail Specification for 62.5 i^m Core Diameter/125 у.т Cladding Diameter Class la Graded-Index Multimode Optical Fibers, ANSI/TIA/EIA-492AAAA-A, TIA, Arlington, VA (no date).

  4. Optical Fiber Cabling Components Standard, ANSI/TIA/EIA-568-В.3, TIA Arlington, VA, April 2000.

  5. Centralized Optical Fiber Cabling Guidelines, ANSI/TIA TSB72, TIA, Arlington, VA, October 1995.

  6. Fiber Selection Guide for Premises Networks, Coming WP1160, Corning Fiber Systems, Corning, NY, May 1998.

  7. Dan Schaefer, bda, «Taking Stock of Premises-Network Performance,» Lightwave, page 70, April 2001.

  8. The IEEE Standard Dictionary of Electrical and Electronic Terms, 6th ed., IEEE, New York, 1996.

  9. Benchmarking Methodology for Network Interconnection Devices, RFC 2544, March 1999, from the Internet.

  10. Agilent Technologies Test and Measurement Catalog 2001, Agilent, Palo Alto, CA, 2001.


Глава 16

  1. Beginner’s Guideto Using the HP 8147 Optical Time Domain Reflectometer, Product Note, Hewlett-Packard (Agilent Technologies), Santa Clara, CA, 1996.

  2. Bob Chomycz, fiber Optic Installer's Field Manual, McGraw-Hill, New York, 2000.

  3. Roger L. Freeman, Telecommunication System Engineering, 3rd ed., John Wiley & Sons, New York, 1996.

  4. Guide to WDM Technology Testing, EXFO, Quebec City, Canada, 2000.

  5. Agilent 71400 Lightwave Signal Analyzer, Application Note 371, Agilent Technologies, Englewood, CO, 2000.

  6. Optical Spectrum Analysis, Agilent Application Note 1550-4, Agilent Technologies, Englewood, CO, 2000.


Глава 17

  1. Michael Sluyski, AMCC, The Evolution of Crossconnects within the Emerging Managed Optical Layer, Lightwave, June 2000.

  2. Luc Ceuppens, Multiprotocol Lambda Switching Comes Together, Lightwave, August 2000. page 80.

  3. Ronnie Chua and Yiqun Hu, Optical Switches Are Key Components in High-Capacity, Data-Centric Networks, Lightwave, November 1999, page 43.

  4. Tim Krause, Migration to All-Optical Networks, Alcatel Raleigh, July 24, 2000, from the Web at www.usa.alcatel.com/telecom.

  5. Paul Green, Progress in Optical Networking, IEEE Communications Magazine, January 2001.

  6. Malathi Veeraraghavan, Ramesh Karri, et al. Architectures and Protocols That Enable New Applications on Optical Networks, IEEE Communications Magazine, March 2001.

  7. Mariene Bourne, MEMS Switching... and Beyond, Cahners In-Stat Group, Lightwave, March 2001, page 204.

  8. Jeremy Lawrence, Cisco Systems, Designing Multiprotocol Label Switching Networks, IEEE Communications Magazine, July 2001, page 134.

  9. MPLS Architecture, E. Rosen et al., RFC 3031, January 2001. From the Internet.

  10. Internet: www.nanog.org/mtg-9905/ppt/mpls, October 23, 2001.

  11. Marc Fernandez and E. Kruglic, MEMS Technology Ushers in New Age in Optical Switching, Lightwave, August 2000, page 146.

  12. Private communication, Luc Ceuppens, Calient Networks, San Jose, CA.

  13. Private communication, Ezekial Kruglick, OMM Inc., San Diego, CA.


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  4. Волоконно-оптическая техника: История, достижения, перспективы. Под ред. Дмитрие­ва С.А., Слепова Н.Н. - М.: АО «ВОТ»/Изд-во Connect, 2000. - 376 с.

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