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  Report: Echelon

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 WORLD-INFOSTRUCTURE > ECHELON > ECHELON MAIN STATIONS
  ECHELON Main Stations


Location

Country

Target/Task

Relations

MORWENSTOW

UK

INTELSAT, Atlantic, Europe, Indian Ocean

NSA, GCHQ

SUGAR GROVE

USA

INTELSAT, Atlantic, North and South America

NSA

YAKIMA FIRING CENTER

USA

INTELSAT, Pacific

NSA

WAIHOPAI

NEW ZEALAND

INTELSAT, Pacific

NSA, GCSB

GERALDTON

AUSTRALIA

INTELSAT, Pacific

NSA, DSD

















MENWITH HILL

UK

Sat, Groundstation, Microwave(land based)

NSA, GCHQ

SHOAL BAY

AUSTRALIA

Indonesian Sat

NSA, DSD

LEITRIM

CANADA

Latin American Sat

NSA, CSE

BAD AIBLING

GERMANY

Sat, Groundstation

NSA

MISAWA

JAPAN

Sat

NSA

















PINE GAP

AUSTRALIA

Groundstation

CIA

















FORT MEADE

USA

Dictionary Processing

NSA Headquarters

WASHINGTON

USA

Dictionary Processing

NSA

OTTAWA

CANADA

Dictionary Processing

CSE

CHELTENHAM

UK

Dictionary Processing

GCHQ

CANBERRA

AUSTRALIA

Dictionary Processing

DSD

WELLINGTON

NEW ZEALAND

Dictionary Processing

GCSB Headquarters






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Echelon
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Fiber-optic cable networks
Fiber-optic cable networks may become the dominant method for high-speed Internet connections. Since the first fiber-optic cable was laid across the Atlantic in 1988, the demand for faster Internet connections is growing, fuelled by the growing network traffic, partly due to increasing implementation of corporate networks spanning the globe and to the use of graphics-heavy contents on the World Wide Web.

Fiber-optic cables have not much more in common with copper wires than the capacity to transmit information. As copper wires, they can be terrestrial and submarine connections, but they allow much higher transmission rates. Copper wires allow 32 telephone calls at the same time, but fiber-optic cable can carry 40,000 calls at the same time. A capacity, Alexander Graham Bell might have not envisioned when he transmitted the first words - "Mr. Watson, come here. I want you" - over a copper wire.

Copper wires will not come out of use in the foreseeable future because of technologies as DSL that speed up access drastically. But with the technology to transmit signals at more than one wavelength on fiber-optic cables, there bandwidth is increasing, too.

For technical information from the Encyclopaedia Britannica on telecommunication cables, click here. For technical information from the Encyclopaedia Britannica focusing on fiber-optic cables, click here.

An entertaining report of the laying of the FLAG submarine cable, up to now the longest fiber-optic cable on earth, including detailed background information on the cable industry and its history, Neal Stephenson has written for Wired: Mother Earth Mother Board. Click here for reading.

Susan Dumett has written a short history of undersea cables for Pretext magazine, Evolution of a Wired World. Click here for reading.

A timeline history of submarine cables and a detailed list of seemingly all submarine cables of the world, operational, planned and out of service, can be found on the Web site of the International Cable Protection Committee.

For maps of fiber-optic cable networks see the website of Kessler Marketing Intelligence, Inc.

http://www.britannica.com/bcom/eb/article/4/0...
http://www.britannica.com/bcom/eb/article/4/0...
http://www.wired.com/wired/archive/4.12/ffgla...
http://www.pretext.com/mar98/features/story3....