Ostatnia mila

• Autorzy: Jeyapalan J. K.
• Języki publikacji: PL

Abstrakty

PL

Zarabianie pieniędzy w nowych warunkach rynkowych wymaga całkowicie nowego paradygmatu. Rozwiązywanie problemu nadmiaru linii przez inwestowanie w specjalne przewody światłowodowe w otwartych wykopach łączących ostatnią milę sieci dostępowych nie sprawdzi się.

Słowa kluczowe

PL

sieć podziemna; światłowody; wykładzina renowacyjna; technologia Ostatniej Mili

EN

underground network; optical fibers; cured in place pipe; "Last Mile"

• Wydawca: Wydawnictwo INŻYNIERIA Spółka z o.o.
• Czasopismo: Inżynieria Bezwykopowa
• Rocznik: 2003
• Tom: nr 2
• Strony: 42--49
• Opis fizyczny: Bibliogr. 56 poz., il., tab.

Twórcy

autor

Jeyapalan J. K.

• P.E. Fibotics International, New Milford, Connecticut, USA

Bibliografia

• [1] Alcatel, Ka−Te, and IK−T (1998), "FAST − Das schneille Modulsystem fur zukunftssichere Telekommunikations−Kabelnetze Informationschricht der Fa. Alcatel Kabel AG, Monchengladbach.
• [2] Berliner Wasser Betriebe (1997), Patent application on "Method and Device for Inserting, Positioning, and Fixing of Constructional Components Having Different Cross Sections." Applicant: Dr. Klaus Beyer, President of RCC.
• [3] Beyer, Klaus (2000), "Einbau Von Kommunikationskabeln in Abwasserkanalen," Proc. of the 6th International Pipeline Construction Show, Hamburg, Germany, June; pp. 370−379.
• [4] Beyer, Klaus (2001), "Personal Communications," Berlin, Feb.
• [5] Brand−Rex (2002), "Personal Communications," Fife, Jan.
• [6] CityNet Telecommunications, Inc. (2000), Personal communications, published articles, press releases, and their web site: www.citynettelecom.com
• [7] Copeland, M.V. and Mali, O. (2002), " Jilted by Broadband," paper in Red Herring, March.
• [8] Corning Cable Systems (2001), Technical Note on Data Superhighway in the Drain authored by Lothar Finzel.
• [9] Fujiyoshi, Yoshinobu, and Nomura, Yoshikazu (1996), " The Current Situation and Future of Sewer Optical Fiber Technology in Japan," Research Report by Japan Sewer Optical Fiber Technological Association.
• [10] Gastec (2002), " Personal Communications," Apeldoorn, Jan.
• [11] GSTT Nr. 12 (1999), "Leitngsverlegung in vorhandenen Netzen Tiel 1: Kabelverlegng in Kanalnetzen, Dec.
• [12] Hecht, J. (2001), " Fiber Crosses The 10−Trillion−Bit Barrier," paper in MIT's Techreview, March.
• [13] Japan Sewage Works Association (1997), "Sewage Works in Japan−Sewerage and Optical Fiber Cable," authored by Yasuto Chiba.
• [14] Jeyapalan, J.K., Jaramillo, C.A., and Saleira, W. (1989), " Design Considerations for a Penstock Located in an Outlet Tunnel at the Jennings Randolph Dam in West Virginia," Proc. of WaterPower '89, ASCE Conference, pp. 426−436.
• [15] Jeyapalan, J.K., and Jaramillo, C.A. (1989), " Hydraulic Model Tests of Flow Around Penstock Suspended Inside the Tunnel for Design of Small Hydro," Proc. of WaterPower '89, ASCE Conference, pp. 577−587.
• [16] Jeyapalan, J.K., and Thiagaram, M. (1989), " An Evaluation of the Applicability and Cost of Polyester Resin and Cementitious Grouts for the Installation of Rock Anchors at Hydro Projects," Proc. of WaterPower '89, ASCE Conference, pp. 960−965.
• [17] Jeyapalan, J.K. (2001), "Fiber Optic Cables Inside of Sewers! Why Not?" paper at UCT, Houston, Texas.
• [18] Jeyapalan, J.K. (2001), "Optical Fiber in City Sewers−An Idea Whose Time Has Come" paper in Trenchless Technology Magazine, March.
• [19] Jeyapalan, J.K. (2001), "How Do You Install Fiber Optic Cables in Sewers?" Parts I and II in Publicworks.com, March.
• [20] Jeyapalan, J.K. (2001), " Fiber Cables in Sanitary Sewers," Civil Engineering News,
• [21] Jeyapalan, J.K. (2001), "A New No−Dig Industry Named Fiber Optic Cables in Sewers in Born," paper at NASTT, 10th annual conference, Nashville, Tennessee, April.
• [22] Jeyapalan, J.K. (2001), "Future Outlook for Trenchless Pipeline Rehabilitation Technologies," 2nd Asian Regional Civil Engineering Conference, Tokyo, Japan, April.
• [23] Jeyapalan, J.K. (2001), "Bridging the Last Mile With Fiber Optic Cables in Sewers," IWCS 50th anniversary conference in Orlando, Florida, November, pp 724−731.
• [24] Jeyapalan, J.K. (2002), "Optical Fiber Cables in Sewers 2002: What do we know? Where are we Heading?" paper in UCT, Jan. 14−17, Houston, Texas.
• [25] Jeyapalan, J.K. (2002), "Optical Fiber Cables in Sewers Part I− Sewer Selection Criteria," paper in Trenchless Technology Magazine, March.
• [26] Jeyapalan, J.K. (2002), "Optical Fiber Cables in Sewers Part II− Sewer Owner's Concerns," paper in Trenchless Technology Magazine, April.
• [27] Jeyapalan, J.K. (2002), "Optical Fiber Cables in Sewers in the USA," paper in No Dig International, April.
• [28] Jeyapalan, J.K. (2002), "Optical Fiber Cables in Existing Sewers and Natural Gas Pipes, " paper in No Dig conference of NASTT, Montreal, Canada, May.
• [29] Jeyapalan, J.K. (2002), "Developing Standards for the Deployment of Optical Fiber Cable in Underground Utility Systems−Last Mile," ASTM International Standardization News, August.
• [30] Jeyapalan, J.K. (2002), "Optical Fiber Cables in Existing Sewers and Natural Gas Pipes, " paper in No Dig conference of ASTT, Sydney, Australia, August.
• [31] Jeyapalan, J.K. (2002), "Finding the Rights of Way−Alternate Methods of Optical Fiber Deployment in the Last Mile," paper at Intelligent Cities 2002, Horizon House and Telecommunications Magazine Conference, Chantilly, Virginia, September.
• [32] Jeyapalan, J.K. (2002), "Municipal Optical Fiber Networks in Existing Sewers May Complete the Last Mile," paper at the New England Water Environment Association Seminar, Westford, MA, October.
• [33] Jeyapalan, J.K. (2002), "Cables in Sewers the Way Forward," paper in Gulf Construction, October.
• [34] Jeyapalan, J.K. (2002), "Underground Utilities for the Last Mile: How Secure Are They?" paper at the Homeland Security Executive Briefing on IT Local Network Opportunities, IGI conference, Burlington, MA, October.
• [35] Jeyapalan, J.K. (2002), "Optical Fiber Connections Through Existing Sewers, Water Pipes, and Natural Gas Pipes," 51st IWCS/FOCUS conference, Orlando, FL, November.
• [36] Jeyapalan, J.K. (2002), "Optical Fiber Connections Through Existing Sewers, and Natural Gas Pipes," Infra 2002:Mapping Out Best Practices in Urban Infrastructure conference, Montreal, Canada, November.
• [37] Jeyapalan, J.K. (2002), "Optical Fiber Cables in Sewers, Natural Gas Pipes, Drinking Water Lines, and Storm Drains Provide Backhaul Networks," Panel Presentation at the 2nd Annual Powerline Communication Association Conference, Washington, DC, December.
• [38] Jeyapalan, J.K.(2002), " Standards in the Sewers: New Efforts Help Optic Fiber Installations in Underground Utility Pipes," Outside Plant, December.
• [39] Jeyapalan, J.K. (2003), "Solving The Last Mile Bottleneck and The Fiber Glut Using Creative Business Partnerships With Existing Utility Pipe Owners, 25th Pacific Telecommunications Council Conference, Honolulu, January.
• [40] Jeyapalan, J.K. (2003), " Future Outlook For Pipeline Materials, Methods, and Maintenance," ASCE Pipelines Conference, Baltimore, Maryland, July.
• [41] Jeyapalan, J.K. (2003), " Future of America's Water is in Our Hands," ASCE Pipelines Conference, Baltimore, Maryland, July.
• [42] JSOFTA (2001)," Sewer Optical Fiber Networks−Helping to Make Your Community More Advanced in Telecommunications," by Japan Sewer Optical Fiber Technological Association.
• [43] Kennedy, M. (2002), " Utilities Go The Last Mile," paper in America's Telecommunications, January.
• [44] Leppert, Hans−Detlef, Nothofer, Klaus, and Teschner, Wolfgang (2001), " Experience From The Field Installation of Optical Fiber Cables in Metro Gas Pipelines," IWCS 50th anniversary conference in Orlando, Florida, November, pp 747−752.
• [45] Nakazato, T. (1997) "Sewer Optic Fibre Networks in Tokyo," WQI, Feb, pp. 16−18
• [46] Nippon Hume Corporation−OFI Business Dept. (2001), "Personal Communications," Tokyo, Jan. to Dec.
• [47] Nippon Hume Corporation−OFI Business Dept. (2001), "The World's First Robotic System for Laying Optical−Fiber Cable in Sewer Lines" August.
• [48] Saeki, Kingo and Saito, Satoshi (1997), "Construction of the Optical Fiber Teleway Network Using Sewers," Research Report by Tokyo Metro Sewer Service Corporation.
• [49] Sempra Fiber Links (2002), " Personal Communications," San Diego, Jan.
• [50] Shinoda, Yasuhiro (1987), " Remote Control of Sewerage Facilities Using Sewer Optical Fiber Teleway," Research Report of Tokyo Metro Government.
• [51] Tokyo Metro Government (2001), "Personal Communications," Tokyo, April − Dec.
• [52] Tokyo Metro Government (2001), "SOFT Plan for Sewer Optical Fiber Teleway Network Plan," April.
• [53] UK Patent GB 2129627, Granted on 16 May 1984 to Water Research Centre on Installa tion of Communication Cables; Inventors: John Gale, Ian Swallow, Martin George, Henry Spooner, Steven Grosvenor, Timothy Henry, Reeve, John Ceerny, Nicholas Paul, Ouroussoff.
• [54] US Patent No: 4,647,251, Granted on March 3, 1987 to Cabletime Installations on Installation of Communication Cables; Inventor: John Gale.
• [55] US Patent No: 4,822,211, Granted on April 18, 1989 to Nippon Hume Corporation, Tokyo Metro Government, and Tokyo Metro Sewer Service Corporation on Method and Apparatus for Laying Cable in a Pipe; Inventors: Yasuhiro Shinoda, Yoshifumi Takahashi, Tsuneto Takaso, Akira Hagiwara, and Yoshiaki Ishii.
• [56] US Patent No: 6,301,414, Granted on October 9, 2001 to Alcatel on Communication Cable Network in a Duct or Tube System Used Primarily for Other Purposes; Inventors: Wolfgang Liese, Alexander Weiss,