Global Dialing Scheme

Last updated June 08, 2024

The Global Dialing Scheme (GDS) is numbering plan for H.323 audio-visual communication networks (often used for videoconferencing). Based on the numerology provided by the United Nations International Telecommunication Union, GDS numerology resembles the international telephone system numbering plan, with some exceptions.

GDS history

In 2000, Victor Reis at HEAnet, Egon Verharen at SURFNet and Steve Williams at The Welsh Video Network began meeting by IP videoconference to discuss the requirements for an international H.323 videoconferencing dialling scheme that would allow E.164 dialling, avoiding clashes through the duplication of number spaces. Tim Poe from the University of North Carolina joined this meeting bringing USA involvement through VIDEnet and the NASM group.

It was envisaged that the GDS would be in place only for a few years until SIP/e-mail address dialling was adopted by vendors - in 2012 the GDS is still in use.

GDS around the world

GDS is used heavily in many of the European countries. Educonf, as part of GÉANT, maintains a connectivity table^[3] and interactive map^[4] which displays which countries currently run and maintain active GDS gatekeepers. Many countries also have a series of test numbers that can be dialed for both technical testing and GDS connectivity verification.

GDS in North America

The North American root gatekeepers serve the United States and its territories, Canada, Bermuda, and many Caribbean nations, including Anguilla, Antigua & Barbuda, Bahamas, Barbados, British Virgin Islands, Cayman Islands, Dominica, Dominican Republic, Grenada, Jamaica, Montserrat, St. Kitts and Nevis, St. Lucia, St. Vincent and the Grenadines, Trinidad and Tobago, and Turks & Caicos. Their purpose is to resolve h.323 numbers at the '001' prefix level under the Global Dialing Scheme (GDS) plan.

Terminology in this document follows the ⟨IAC⟩⟨CC⟩⟨OP⟩⟨EN⟩ format of general GDS documentation. The ‘001’ above refers to the IAC of 00 and the CC of 1 for North America.

This North American node of the Global Dialing Scheme utilizes an enhanced version of the North American Numbering Plan (NANP) to distribute addresses. The address space is divided into two parts: North American E.164 Space and North American Super Space. North American E.164 Space correlates to existing telephone number assignments and is well-suited for IP telephony applications. North American Super Space utilizes unused NANP address space starting with 0 or 1 to create an address space that is separate from existing telephone numbering addresses. This North American Super Space is well suited to video over IP or other all-IP applications that desire to be distinct from telephony applications and NANP regulations.

GDS users in North America may request addresses in either or both spaces, if needed.

North American E.164 Space

Addresses allocated from this range will be based upon the ITU-T e.164 telephone number assigned to the current subscriber of a range of telephone numbers, rather than to the service provider carrying those numbers. For example, if a university held +1.919.226.6100 through +1.919.226.6199, then that university would be eligible for the GDS prefix 00191922661. That university could assign the remaining two digits to endpoints 00-99. Aside from maintaining direct inward dial (DID) capability for endpoints, there is no reason to limit endpoint numbering to two digits. For example, the university might use five digit endpoint numbers for a total address space of 001919226610000 through 001919226619999, yielding 10,000 usable addresses. Organizations that do not have a DID range may use this extension technique to map their entire address space onto a single 10-digit telephone number. Implementors of voice over IP applications may wish to adhere more strictly to the NANP numbering convention.

North America Super Space

The organizational prefixes ⟨OP⟩ of addresses in North American Super Space (NASS) start with a 0 or 1 immediately following the country code (1). These digits are not assigned under the NANP, being used rather for special indications as described in 1947 by AT&T and Bell Laboratories.

NASS addresses are of the form:

001PX9⟨EN⟩

Where P is a 0 or 1. X is a variable length string of digits consisting of any digit between 0 and 8. 9 is used as a delimiter. ⟨EN⟩ is a variable length user-defined number consisting of any digits 0-9. Thus, NASS addresses are variable in length.

Some examples of fully qualified GDS NASS addresses; all address below contain the GDS IAC (00) and CC (1) with endpoint numbers indicated as ⟨EN⟩:

0010 Reserved

00119⟨EN⟩ (OP = 19)

001109⟨EN⟩ (OP = 109)

001119⟨EN⟩ (OP = 119)

001129⟨EN⟩ (OP = 129)

001139⟨EN⟩ (OP = 139)

001189⟨EN⟩ (OP = 189)

00110123456789⟨EN⟩ (OP = 10123456789)

Actual Dialing With the onset of Cisco Telepresence which uses the Cisco Unified Communications Manager (CUCM - previously known as CallManager),^[5] some modifications have been made for dialing with North America. Specifically within North America, the need to dial the '00' as part of the GDS string is no longer required. This was done to eliminate end-user confusion and bring GDS closer to look like real world dialing numbers. It was also done because the Cisco Call Manager only routes legit phone-based e.164 numbers even if they are not going over the telephone lines. So in order to allow SIP based devices to take place and use GDS, the removal of the 00 requirement was applied. Dialing with the '00' will still work, however it is not required as the translation for handling the '00' is done on the back end. Currently this only applies to GDS zones within North America.

Related Research Articles

E.164 is an international standard, titled The international public telecommunication numbering plan, that defines a numbering plan for the worldwide public switched telephone network (PSTN) and some other data networks.

The North American Numbering Plan (NANP) is a telephone numbering plan for twenty-five regions in twenty countries, primarily in North America and the Caribbean. This group is historically known as World Zone 1 and has the telephone country code 1. Some North American countries, most notably Mexico, do not participate with the NANP.

A telephone numbering plan is a type of numbering scheme used in telecommunication to assign telephone numbers to subscriber telephones or other telephony endpoints. Telephone numbers are the addresses of participants in a telephone network, reachable by a system of destination code routing. Telephone numbering plans are defined in each of the administrative regions of the public switched telephone network (PSTN) and in private telephone networks.

E.123 is an international standard by the standardization union (ITU-T), entitled Notation for national and international telephone numbers, e-mail addresses and web addresses. It provides guidelines for the presentation of telephone numbers, email addresses, and web addresses in print, on letterheads, and similar purposes.

Telephone numbers in the Netherlands are administered by the Ministry of Economic Affairs, Agriculture and Innovation of the Netherlands. The telephone numbering plan may be grouped into three general categories: geographical numbers, non-geographical numbers, and numbers for public services.

Seven-digit dialing is a telephone dialing procedure customary in some territories of the North American Numbering Plan (NANP) for dialing telephone numbers in the same numbering plan area (NPA). NANP telephone numbers consist of ten digits, of which the leading three are the area code. In seven-digit dialing it is not necessary to dial the area code. The procedure is also sometimes known as local format or network format.

<span class="mw-page-title-main">Area code 868</span> Trinidad & Tobagos telephone area code under the North American Numbering Plan

The area code 868 is assigned to Trinidad and Tobago, a member of the North American Numbering Plan (NANP). The telephone numbering plan for the country is known as the National Numbering Plan. It is part of a system used for assigning telephone numbers in Trinidad and Tobago, and functions as a part of the North American Numbering Plan (NANP). It is regulated by the Telecommunications Authority of Trinidad and Tobago, which holds responsibility for telecommunications in the country.

An H.323 Gatekeeper serves the purpose of Call Admission Control and translation services from E.164 IDs to IP addresses in an H.323 telephony network. Gatekeepers can be combined with a gateway function to proxy H.323 calls and are sometimes referred to as session border controllers (SBC). A gatekeeper can also deny access or limit the number of simultaneous connections to prevent network congestion.

Area code 246 is the telephone area code in the North American Numbering Plan (NANP) for Barbados. The sequence 246 spells BIM on an alpha-numeric telephone keypad, a nickname for the island.

Area codes 876 and 658 are telephone area codes in the North American Numbering Plan (NANP) for Jamaica.

Area codes 631 and 934 are the telephone area codes in the North American Numbering Plan (NANP) for Suffolk County, New York, on Long Island. Area code 631 was created in 1999 in a split from 516; and 934 was added as an overlay in 2016. Communities within the area include Babylon, Huntington, Islip, Smithtown, Brookhaven, Riverhead, Southampton, Southold, Shelter Island, and East Hampton.

Telephone numbers in Azerbaijan follow the ITU Telecommunication Standardization Sector E.164 recommended format its telephone numbering plan.

<span class="mw-page-title-main">H.323</span> Audio-visual communication signaling protocol

H.323 is a recommendation from the ITU Telecommunication Standardization Sector (ITU-T) that defines the protocols to provide audio-visual communication sessions on any packet network. The H.323 standard addresses call signaling and control, multimedia transport and control, and bandwidth control for point-to-point and multi-point conferences.

The expansion of the North American Numbering Plan (NANP) is the anticipated requirement for providing more telephone numbers to accommodate future needs beyond the pool of ten-digit telephone numbers. Ten-digit telephone numbers have been in use in the United States and Canada in long-distance telephone service since the 1950s. An October 2020 analysis estimated that the numbering plan would not be exhausted until after 2050.

Telephone numbers in Mexico are regulated by the Federal Telecommunications Institute, an independent government agency of Mexico. The agency published the Fundamental Technical Plan for Numbering on May 11, 2013. The plan establishes a uniform ten-digit telephone number format. It took effect on August 3, 2019.

Telephone numbers in Canada follow the fixed-length format of the North American Numbering Plan (NANP) of a three-digit area code, a three-digit central office code, and a four-digit station or line code. This is represented as NPA NXX XXXX.

The country code 599 was assigned to the Netherlands Antilles, and is in use by Curaçao and the Caribbean Netherlands.

<span class="mw-page-title-main">Telephone number</span> Sequence of digits assigned to a telephone subscription

A telephone number is a sequence of digits assigned to a landline telephone subscriber station connected to a telephone line or to a wireless electronic telephony device, such as a radio telephone or a mobile telephone, or to other devices for data transmission via the public switched telephone network (PSTN), or other public and private networks. Modern smart phones have added a built-in layer of abstraction whereby individuals or businesses are saved into a contacts application and the numbers no longer have to be written down or memorized.

Area code 721 is the telephone area code in the North American Numbering Plan (NANP) for Sint Maarten, a constituent country of the Kingdom of the Netherlands in the Caribbean. The area code was assigned in 2011 after membership of the country in the NANP became effective. International dialing to the country requires the use of country code 1.

References

↑ "Welsh Video Network". Archived from the original on 2012-02-27. Retrieved 2012-08-24.
↑ "GDS : The Global Dialing Scheme Explained". Archived from the original on 2007-11-21. Retrieved 2007-11-29.
↑ http://educonf.geant2.net/monitoring/gds/ Archived 2011-07-23 at the Wayback Machine : The Global Dialing Scheme Connectivity Matrix
↑ http://educonf.geant2.net/directory/map/ Archived 2009-11-07 at the Wayback Machine : The Global Dialing Scheme Global Map
↑ "Cisco Unified Communications Manager (CallManager) - Cisco Systems". Archived from the original on 2012-11-03. Retrieved 2012-11-02.

External links

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[1] "Welsh Video Network". Archived from the original on 2012-02-27. Retrieved 2012-08-24.

[2] "GDS : The Global Dialing Scheme Explained". Archived from the original on 2007-11-21. Retrieved 2007-11-29.

[3] ttp://educonf.geant2.net/monitoring/gds/ Archived 2011-07-23 at the Wayback Machine : The Global Dialing Scheme Connectivity Matrix

[4] ttp://educonf.geant2.net/directory/map/ Archived 2009-11-07 at the Wayback Machine : The Global Dialing Scheme Global Map

[5] "Cisco Unified Communications Manager (CallManager) - Cisco Systems". Archived from the original on 2012-11-03. Retrieved 2012-11-02.

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