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Recommendation ITU-T E.164
The international public telecommunication numbering plan
StatusIn force
Year started1984
Latest version(06/20)
June 2020
OrganizationITU-T
CommitteeStudy Group 2
Related standardsE.123, E.163
Domaintelephony
Websitehttps://www.itu.int/rec/T-REC-E.164/

E.164 is an international standard (ITU-T Recommendation), 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.

E.164 defines a general format for international telephone numbers. Plan-conforming telephone numbers are limited to only digits and to a maximum of fifteen digits.[1] The specification divides the digit string into a country code of one to three digits, and the subscriber telephone number of a maximum of twelve digits.

History

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Recommendation E.164 is part of a series of standards (E.160–E.169, Numbering plan of the international telephone service) that represent a redefinition of the earlier specifications in Recommendation E.29 in the Red Books of 1960 and 1964. In 1960, an international numbering plan was defined for Europe and parts of western Asia, and some Mediterranean countries.[2] In 1964, E.29 was expanded with a global code system based on world numbering zones. In the 1968 White Book, the definition of country codes was relegated to ITU Recommendation E.161. The first issue of E.164 was published in 1988 in Blue Book Fascicle II.2, under the title Numbering Plan for the ISDN Era.

Recommendations

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E.163

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E.163 was the former ITU-T recommendation for describing telephone numbers for the public switched telephone network (PSTN). In the United States, this was formerly referred to as a directory number. E.163 was withdrawn, and some recommendations were incorporated into revision 1 of E.164 in 1997.[3]

E.164.1

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This recommendation describes the procedures and criteria for the reservation, assignment, and reclamation of E.164 country codes and associated identification code (IC) assignments.[4] The criteria and procedures are provided as a basis for the effective and efficient utilization of the available E.164 numbering resources.

E.164.2

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This recommendation contains the criteria and procedures for an applicant to be temporarily assigned a three-digit identification code within the shared E.164 country code 991 for the purpose of conducting an international non-commercial trial.[5]

E.164.3

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This recommendation describes the principles, criteria, and procedures for the assignment and reclamation of resources within a shared E.164 country code for groups of countries.[6] These shared country codes will coexist with all other E.164-based country codes assigned by the ITU. The resource of the shared country code consists of a country code and a group identification code (CC + GIC) and provides the capability for a group of countries to provide telecommunication services within the group. The Secretariat of the ITU Standardization Sector (ITU-T), the Telecommunication Standardization Bureau (TSB) is responsible for the assignment of the CC + GIC.

Numbering formats

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The E.164 recommendation provides the telephone number structure and functionality for five categories of telephone numbers used in international public telecommunications.

For each of the categories, it details the components of the numbering structure and the digit analysis required for successful routing of calls. Annex A provides additional information on the structure and function of E.164 numbers. Annex B provides information on network identification, service parameters, calling/connected line identity, dialing procedures, and addressing for Geographic-based ISDN calls. Specific E.164-based applications which differ in usage are defined in separate recommendations.

The number categories are all based on a fifteen-digit numbering space. Before 1997, only twelve digits were allowed. The definition does not include any international call prefixes, necessary for a call to reach international circuits from inside the country of call origination.

Geographic areas

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Country Code National Destination Code Subscriber Number
1 to 3 digits maximum 15 digits − number of digits in the country code
maximum 15 digits

Global services

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Country Code Global Subscriber Number
3 digits maximum 12 digits
maximum 15 digits

[1] Figure 2

Networks

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Country Code Identification Code Subscriber Number
3 digits 1 to 4 digits maximum 12 digits − number of digits in the identification code
maximum 15 digits

Groups of countries

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Country Code Group Identification Code Subscriber Number
3 digits 1 digit maximum 11 digits
maximum 15 digits

Trials

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Fixed code Trial Identification Code Subscriber Number
991 1 digit maximum 11 digits
maximum 15 digits

Uses of E.164 numbers

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E.164 numbers were originally defined for use in the worldwide public switched telephone network (PSTN). The early PSTN collected routing digits from users (e.g. on a dial pad), signaled those digits to each telephony switch, and used the numbers to determine how to ultimately reach the called party.

ITU-T E.123 entitled Notation for national and international telephone numbers, e-mail addresses and web addresses provides guidance when printing E.164 telephone numbers. This format includes the recommendation of prefixing international telephone numbers with a plus sign (+) and using only spaces for digit grouping.

The presentation of a telephone number with the plus sign (+) indicates that the number should be dialed with an international calling prefix, in place of the plus sign. The number is presented starting with the telephone country code. This is called the globalized format of an E.164 number, and is defined in the Internet Engineering Task Force RFC 2806.[7] The international calling prefix is a trunk code to reach an international circuit in the country of call origination.[8]

DNS Mapping of E.164 numbers

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Main article: Telephone number mapping

Some national telephone administrations and telephone companies have implemented an Internet-based database for their numbering spaces. E.164 numbers may be registered in the Domain Name System (DNS) of the Internet in which the second-level domain e164.arpa has been reserved for telephone number mapping (ENUM). In the system, any telephone number may be mapped into a domain name using a reverse sequence of subdomains for each digit. For example, the telephone number +19995550123 translates to the domain name 3.2.1.0.5.5.5.9.9.9.1.e164.arpa. When a number is mapped, a DNS query may be used to locate the service facilities on the Internet that accept and process telephone calls to the owner of record of the number, using, for example, the Session Initiation Protocol (SIP), a call-signaling VoIP protocol whose SIP addresses are similar in format (user@domain...) to e-mail addresses. This allows a direct, end-to-end Internet connection without passing through the public switched telephone network.

See also

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External sources

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References

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Revisions and contributorsEdit on WikipediaRead on Wikipedia

E.164

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E.164 is an international standard recommendation from the ITU Telecommunication Standardization Sector (ITU-T), titled "The international public telecommunication numbering plan," that defines the structure and functionality of telephone numbers used for international public telecommunication services on the public switched telephone network (PSTN).[1] It ensures globally unique identification of devices and successful routing of calls by prescribing a consistent format: a leading plus sign (+) followed by a 1- to 3-digit country code and the national significant number, with a total length not exceeding 15 digits.[2] The standard covers five categories of numbers—geographic areas, global services (such as universal personal telecommunications), networks (including international networks and mobile services), groups of countries, and trials—to accommodate diverse telecommunication needs while optimizing resource allocation.[3] Originally evolving from earlier ITU recommendations, such as E.29 first issued in 1960 and E.163 from 1964, E.164 has been revised multiple times to adapt to technological advancements, with the current version published in November 2010 and amended in 2011.[1] This framework not only supports traditional voice telephony but also extends to data networks and emerging services, facilitating interoperability across borders.[4] By standardizing numbering, E.164 prevents conflicts and enables efficient international dialing, remaining a cornerstone of global telecommunications infrastructure.[5]

Introduction

Definition and Scope

E.164 is the ITU-T Recommendation titled "The international public telecommunication numbering plan," which establishes a standardized framework for assigning telephone numbers in international public telecommunication networks.[1] This recommendation defines the structure and allocation principles for international telephone numbers to ensure global interoperability and efficient routing of calls across public switched telephone networks (PSTN) and integrated services digital networks (ISDN).[1] Adopted to replace the former E.163 numbering plan in 1984, E.164 expanded the scope to accommodate evolving telecommunication needs, including the integration of digital services.[1] It covers five categories of international public telecommunication numbers: geographic areas, global services, networks, groups of countries, and trials, each designed to support specific types of numbering requirements while maintaining a unified international format.[6] The recommendation specifies that international E.164 numbers have a maximum length of 15 digits, excluding the international prefix, to balance address space efficiency with practical implementation in switching systems.[6] The current version, approved in November 2010, remains in force with amendments incorporated up to June 2020, reflecting ongoing adaptations to modern telecommunication environments such as mobile and internet-based services.[6]

Purpose and Importance

The E.164 recommendation establishes a uniform numbering plan for international public telecommunication services, with the primary objective of ensuring the unique identification of telecommunication stations worldwide, including user-network interfaces in public switched telephone networks (PSTN), integrated services digital networks (ISDN), and mobile systems.[7] This structure facilitates efficient international call routing by providing a standardized format that allows networks to direct calls unambiguously across borders, thereby supporting seamless interoperability between diverse telecommunication systems and service providers.[7] By defining five categories of numbers for various applications, E.164 enables consistent addressing for both traditional and evolving communication needs.[1] The importance of E.164 lies in its role as the foundational standard for global dialing, eliminating ambiguity in telephone number interpretation and enabling reliable connectivity for billions of users across PSTN, mobile networks, and emerging services such as voice over IP (VoIP) and short message service (SMS).[2] Its structured allocation of country codes and national numbers optimizes resource distribution, helping to mitigate the risk of numbering plan exhaustion by allowing hierarchical management and efficient reuse of digits as demand grows in densely populated regions.[1] This prevents fragmentation in international communications and supports scalable expansion without requiring frequent overhauls of existing infrastructure.[8] As a cornerstone of telecommunication standardization, E.164 serves as the basis for national numbering plans, guiding how countries allocate and administer their domestic resources in alignment with international norms.[7] It integrates with ISDN and anticipates compatibility with future networks, ensuring long-term adaptability for technologies like intelligent networks and global mobile satellite systems.[7] Managed by the International Telecommunication Union (ITU), E.164 is adopted globally by over 190 ITU member states and territories, forming the backbone of the world's public telecommunication infrastructure.[1]

History

Origins and Development

The origins of the E.164 recommendation trace back to the early 1960s, when the International Telecommunication Union's Consultative Committee for International Telegraph and Telephone (CCITT, the predecessor to ITU-T) initiated efforts to create a worldwide numbering plan for international telephone services. At the CCITT Plenary Assembly in New Delhi in 1960, discussions focused on developing a global structure to enable automatic international direct dialing, building on earlier regional plans and addressing the limitations of manual operator-assisted calls.[9] This work culminated in Recommendation E.29, first issued in 1960, which outlined initial country codes and laid the groundwork for a unified international system.[10] Building on these foundations, the CCITT further refined the plan through subsequent assemblies in the 1960s, leading to the issuance of Recommendation E.163 in 1964, which formalized the numbering plan for international telephone services and was revised at every subsequent plenary assembly.[7] Development accelerated in the 1970s and 1980s amid growing demands for expanded capacity and interoperability, with Study Group II (now SG2), responsible for numbering, tariffs, and international networks, coordinating contributions from member administrations to harmonize national plans with international requirements.[11] The recommendation was formally approved as E.164 in 1984 during the VIIIth CCITT Plenary Assembly in Málaga-Torremolinos, as part of the E.160-E.169 series dedicated to international numbering and routing plans.[7] The 1988 edition was titled "Numbering Plan for the ISDN Era," addressing the transition from analog to digital systems in international telephony and accommodating the emergence of Integrated Services Digital Network (ISDN) capabilities while ensuring compatibility with existing infrastructure.[12] This focus on digital evolution allowed for longer number lengths and global services, marking a pivotal advancement in standardizing public telecommunication addressing. E.164 later incorporated and superseded elements of E.163 to streamline the overall framework.[7]

Transition from E.163

The E.163 numbering plan, established in 1964 and revised periodically, imposed significant limitations on international telephone numbering, primarily through a maximum length of 12 digits for international numbers, which constrained the allocation of subscriber numbers and offered limited flexibility for accommodating the growth of telecommunication services, including emerging integrated services digital network (ISDN) capabilities.[13][14] These constraints became increasingly evident in the 1980s as global telephony expanded and the need for longer, more versatile numbering arose to support future technologies.[12] The transition to E.164 began with its initial publication in 1984 as the "Numbering Plan for the ISDN Era," marking a gradual adoption process throughout the 1980s that aligned with the rollout of ISDN infrastructure worldwide.[15] This was followed by a second edition in 1988 and culminated in the 1991 merger of E.163's content into E.164, effectively replacing the older plan by the early 1990s as national administrations updated their systems to comply with the new standard.[16] The five categories of numbers defined under E.163—geographic, non-geographic, and others—were retained in E.164 but significantly expanded to better support diverse services.[7] Key changes in E.164 addressed E.163's shortcomings by introducing a maximum international number length of 15 digits (excluding the international prefix) and formalizing variable-length country codes of 1 to 3 digits, enabling greater scalability for global numbering without disrupting existing allocations.[12][3] Implementation of the transition faced challenges in harmonizing diverse national numbering plans, requiring extensive international coordination through ITU-T Study Groups and agreements among member administrations to ensure interoperability and minimize disruptions during the shift to ISDN-compatible numbering.[16] These efforts involved phased updates to international switching systems and bilateral arrangements for cross-border dialing.[17] The fourth issue in 1997 incorporated Recommendations E.160 and E.162, adding provisions for mobile and personal numbering resources to reflect the rapid growth of cellular services and integrate them into the international plan without exhausting available codes.[7] This emphasized the plan's adaptability to non-geographic services while maintaining backward compatibility.[15] Subsequent revisions included the fifth issue in 2005, which addressed evolving data and multimedia services, and the sixth issue in November 2010 (amended June 2011), providing clarifications on number structure and supporting interoperability with IP-based networks; as of November 2025, the 2010 version with 2011 amendment remains in force.[1]

Number Structure

General Format

The E.164 standard defines the international public telecommunication numbering plan as a structure comprising an international prefix, a country code (CC), and a national significant number (NSN). The international prefix, typically represented by the plus sign (+), indicates that the following digits form a complete international number. This is followed by the CC, which identifies the country or geographic region, and the NSN, which specifies the subscriber or service within that country.[1] The length of an E.164 number is strictly limited to a maximum of 15 digits in total for the CC and NSN combined, excluding the international prefix. The CC consists of 1 to 3 digits, while the NSN ranges from 1 to 14 digits, ensuring flexibility across different national numbering plans while maintaining a uniform global maximum. For dialing purposes, the number is represented in the format + followed by the CC and NSN, often with hyphens or spaces for readability, such as +1-XXX-XXX-XXXX for numbers in North America.[1] The E.164 standard allows a maximum of 15 digits per number (1-3 for the country code + up to 14 for the national significant number), providing a vast theoretical numbering space on the order of 10^{15} (quadrillions) possible combinations, though actual usage varies by country due to national numbering plans and reservations. This capacity ensures sufficient numbers for global needs, allowing for thousands of numbers per person if fully utilized. In forming the NSN for international use, any leading zero that serves as a national trunk prefix must be omitted, although the NSN itself may begin with zero in cases where it is part of the substantive numbering (e.g., for certain mobile or non-geographic services). This rule prevents ambiguity in international routing while preserving national dialing conventions. Furthermore, E.164 imposes no specific internal structure on the NSN beyond its maximum length, allowing each country to define its own allocation of digits for area codes, subscriber numbers, or service identifiers within the overall constraints.[1]

Key Components

The E.164 international public telecommunication numbering plan structures telephone numbers into two primary components: the country code (CC) and the national significant number (NSN). The country code serves as the initial identifier, consisting of 1 to 3 digits that denote a specific country, integrated numbering plan, geographical entity, or global service.[1] Country codes are allocated within defined ranges by the International Telecommunication Union (ITU); for instance, single-digit codes like 1 apply to the Americas under the North American Numbering Plan, while codes starting with 2 are primarily for African countries, 3 for European countries, 8 for Asian countries, and so on, and 7 is designated for Russia and Kazakhstan.[1][18] The national significant number follows the country code and comprises the remaining digits of the telephone number, with a variable length that includes the national destination code (such as an area code) and the subscriber number.[7] This NSN must be unique within its national numbering plan to ensure routability and must not exceed a combined total of 15 digits when paired with the CC, excluding any international prefix.[1] E.164 numbers are composed solely of numeric digits, with no alphabetic characters allowed, to maintain compatibility across global networks.[1] Trunk prefixes, which facilitate domestic long-distance dialing in some countries, are excluded from the E.164 structure as they are nationally defined and not part of the international format.[7] For international use, the standard representation prepends a plus sign (+) to the CC and NSN (e.g., +CC-NSN), while domestic dialing omits the country code entirely, relying on the NSN alone or with national prefixes.[1] This design ensures unambiguous global identification without incorporating variable national dialing conventions.[7]

Categories of Numbers

Geographic Numbers

Geographic numbers under ITU-T Recommendation E.164 refer to international public telecommunication numbers assigned to specific geographic areas, encompassing individual countries, territories, or integrated numbering plan regions.[19] These numbers facilitate voice and data services tied to defined national or regional boundaries, ensuring unique identification for routing purposes within the global public switched telephone network.[19] Country codes (CCs) for geographic numbers range from 1 to 3 digits, prefixed by a "+" in international format, and are allocated by the ITU Telecommunication Standardization Bureau to single sovereign entities or shared among multiple countries with coordinated numbering systems. For instance, the 1-digit CC 1 is shared by North American Numbering Plan (NANP) participants, including the United States, Canada, and various Caribbean nations, while the 2-digit CC 33 is exclusively assigned to France. This allocation supports both fixed-line telephony and mobile networks operating within the respective geographic scopes, with national authorities managing internal subdivisions.[19] The overall format limits geographic numbers to a maximum of 15 digits, comprising the CC followed by a national significant number (NSN) of variable length up to 14 digits, enabling substantial addressing capacity.[19] For a 1-digit CC like 1, this structure accommodates up to 101410^{14} possible numbers, sufficient for long-term expansion in densely populated regions such as the NANP area.[19] An example is the number +1 212 555 0123, where +1 denotes the NANP geographic area and 212 identifies a specific locality in New York City. National numbering plans determine the internal composition of the NSN for geographic numbers, typically delineating prefixes for fixed versus mobile services while adhering to E.164 length constraints.[19]

Global Services and Networks

E.164 designates specific three-digit country codes beginning with 8 for global services, enabling uniform international access to non-geographic telecommunication offerings independent of the caller's location. These codes support services such as toll-free and shared-cost calling, where the recipient typically bears the cost, facilitating worldwide customer support, reservations, and information dissemination without location-based restrictions. The structure adheres to E.164's overall format, with the country code followed by a national significant number of up to 12 digits, but tailored for global applicability to ensure seamless routing across public switched telephone networks (PSTN) and emerging systems.[20] The primary example is the Universal International Freephone Number (UIFN) under country code +800, allocated exclusively for international freephone services where calls are free to the originating party. A UIFN consists of the +800 country code followed by an eight-digit Global Subscriber Number (GSN), resulting in numbers like +800 123 4567, which can be dialed from most countries after the international prefix. This service, governed by ITU-T Recommendation E.169, allows service providers to obtain numbers from the ITU for global use, with routing handled through international networks to the designated termination points. Allocation is limited to the +800 range to prevent exhaustion, with the ITU managing assignments to qualified operators on a first-come, first-served basis.[20] Complementing freephone, the +808 country code supports the Universal International Shared Cost Number (UISCN) for services where costs are partially or fully shared between caller and recipient, promoting accessible international communication for applications like customer service or e-commerce. Similar to UIFN, UISCN numbers follow a +808 prefix with an eight-digit GSN, such as +808 123 4567, and are detailed in ITU-T Recommendation E.169.3, ensuring interoperability and preventing geographic tying. These shared-cost options expand global service reach while balancing economic incentives for providers.[20][21] For international networks and satellite systems, E.164 reserves shared country codes +881, +882, and +883, which are not assigned to specific countries but to global operators for specialized networks. The +881 code, used for Global Mobile Satellite Systems (GMSS), combines with two one-digit Identification Codes (ICs) for services like satellite telephony; for instance, Iridium uses +881 6 and +881 7, while Globalstar employs +881 8 and +881 9, enabling direct dialing to mobile satellite devices worldwide. Codes +882 serve international networks, appending one or more two-digit ICs to support data, VoIP, and private global networks—examples include +882 10 for British Telecom—allowing location-independent connectivity for multinational enterprises and remote operations. As of 2025, +883 is primarily allocated for Internet of Things (IoT) and machine-to-machine (M2M) communications, with three-digit ICs, though some legacy assignments support international networks such as +883 51 for certain VoIP providers; these allocations, managed under ITU-T E.164 and E.156, are finite, with the ITU overseeing sharing among operators to optimize resource use and ensure universal accessibility.[22][18][23][24]

Groups of Countries

E.164 provides for numbers assigned to groups of countries, using shared country codes such as +388, which is reserved for coordinated use across multiple nations. This category enables harmonized numbering for regional services spanning borders, with Group Identification Codes (GICs) appended to the country code for specific applications. As of 2025, +388 remains a shared code, historically associated with initiatives like the European Telephony Numbering Space (ETNS), though active assignments are limited and managed by the ITU to support collaborative telecommunication services among participating countries.[1][25]

Trials

The trials category in E.164 allows for temporary assignment of numbering resources to test new services, technologies, or numbering arrangements without permanent commitment. These are short-term allocations from spare country codes or identification codes, typically lasting up to five years, and are reclaimed after the trial period. This facilitates innovation in telecommunications while protecting the integrity of the global numbering plan, with the ITU approving and monitoring such trials to ensure they do not conflict with operational numbers. No specific permanent country codes are dedicated to trials; instead, they draw from available resources as needed.[1]

Related Recommendations

E.164.1: Country Code Assignment

Recommendation ITU-T E.164.1, approved in September 2008, establishes the criteria and procedures for the reservation, assignment, and reclamation of E.164 country codes (CCs) and associated identification codes (ICs). This framework ensures the efficient and equitable distribution of international numbering resources by the International Telecommunication Union (ITU), preventing depletion while accommodating global telecommunications growth.[26] The assignment process begins with an application from a national administration or recognized operating agency to the ITU Telecommunication Standardization Bureau (TSB), which coordinates with Study Group 2 (SG2) for evaluation. Applications must detail the proposed use, including whether the code will support geographic areas, global services, or networks, and demonstrate technical and operational viability. Evaluation prioritizes the applicant's need, such as projected subscriber growth or service requirements, and assesses potential impacts on the global numbering plan. For non-geographic uses, additional scrutiny ensures alignment with international service standards.[26] Specific criteria for assignment include proof of sufficient demand based on projected needs, alongside full compliance with the E.164 numbering structure, including length limitations and digit composition. The TSB assigns codes only after verifying these elements, typically reserving 1- to 3-digit codes from available pools to maintain scarcity and value. Reservations may be granted temporarily for planning purposes, such as for newly independent territories, pending full assignment.[26] Reclamation procedures address underutilization or misuse, allowing the TSB to review assigned codes periodically—after 2 years of inactivity or failure to meet ongoing criteria. If an administration cannot demonstrate continued need or proper implementation, the code may be reclaimed and returned to the pool for reassignment, promoting resource stewardship. Codes should not be reassigned for a period of two years after reclamation.[26] A historical example illustrates the process: in 1968, the ITU assigned country code 971 to the Trucial States, which became the United Arab Emirates in 1971, based on demonstrated national need for an independent telephony system. This ongoing mechanism supports evolving global demands, such as assignments for new nations or expanded services.[27]

E.164.2: Numbering Plan Interworking

Recommendation ITU-T E.164.2, first published in 2001 and revised multiple times with the latest version approved in March 2024, provides criteria and procedures for the temporary assignment of E.164 numbering resources for trials of new international public correspondence services. It aims to assess the viability of proposed services without permanently depleting global numbering resources.[28] The recommendation outlines the application process to the ITU TSB, requiring applicants to demonstrate the trial's purpose, duration (typically limited to 2 years, extendable), expected usage, and how it aligns with E.164 principles. Assignments are made from reserved pools, such as specific identification codes under global service country codes (e.g., +800 or +881), ensuring no conflict with production numbers. The 2024 revision clarifies conditions for reclamation, including cases of non-payment of membership fees.[28] These temporary resources support innovation in telecommunications, such as testing new mobile or satellite services, while maintaining the integrity of the global numbering plan. Upon trial completion or failure to meet criteria, resources are reclaimed and returned to the pool.[28]

E.164.3: Shared Country Code Management

Recommendation ITU-T E.164.3, approved in September 2001, establishes the principles, criteria, and procedures for the assignment and reclamation of resources within a shared E.164 country code allocated to groups of countries (GoC).[29] These resources comprise the shared country code (CC) combined with a group identification code (GIC), enabling coordinated telecommunication services across multiple nations while coexisting with individually assigned E.164 country codes.[29] The ITU Telecommunication Standardization Bureau (TSB) holds primary responsibility for assigning and reclaiming the CC + GIC, ensuring global consistency and preventing overlap with other numbering resources.[29] Assignment principles emphasize equitable distribution, technical feasibility, and long-term sustainability for the GoC, with procedures requiring formal requests from the group, detailed justification of need, and ITU approval to initiate sub-allocation.[29] Regional or national bodies within the GoC oversee internal management, including the subdivision of the national significant number (NSN) space to individual members, while adhering to criteria such as demonstrated demand, avoidance of conflicts, and periodic usage reporting to the ITU-TSB.[29] Reclamation follows similar structured processes, triggered by underutilization or changes in group composition, with provisions for notifying affected parties and transitioning resources without disrupting service.[29] A prominent example is the +1 country code, shared under the North American Numbering Plan (NANP) by 20 countries and territories, including the United States, Canada, Bermuda, and several Caribbean nations such as Jamaica and the Bahamas. The North American Numbering Plan Administrator (NANPA), designated by the Federal Communications Commission (FCC) and the Canadian Radio-television and Telecommunications Commission (CRTC), manages sub-allocations of the 10-digit NSN format (NPA-NXX-XXXX), coordinating with national authorities to assign area codes (NPAs) and prevent duplication across borders.[30] NANPA facilitates coordination through industry forums like the Industry Numbering Committee (INC), requires annual utilization forecasts and audits from service providers, and reports aggregate usage data to the ITU to support global oversight.[31] Key challenges in shared country code management include mitigating resource exhaustion, addressed through strategies like NPA overlays and code conservation measures, as seen in the NANP where NANPA monitors projections and implements relief plans when central office code pools near depletion.[32] These efforts ensure stable international routing while accommodating varying NSN lengths and national dialing plans within the shared framework.[29]

Supplements to E.164

Number Portability Guidelines

Supplement 2 to ITU-T Recommendation E.164, first approved in November 1998, with subsequent revisions including in November 2009 and June 2020, establishes guidelines for implementing number portability within the E.164 international public telecommunication numbering plan. These guidelines address local, service, and geographic portability, enabling end-users to retain their assigned E.164 numbers when switching between service providers, services, or locations, thereby fostering competition and user convenience without altering the fundamental structure or format of the numbers.[33] The supplement emphasizes maintaining number integrity to support seamless call routing and international interoperability. The core principles outlined in the supplement focus on preserving the E.164 number's validity and usability during portability events, ensuring global consistency in implementation across national networks.[34] Number portability is categorized into three main types: service provider portability, which allows retention of a number when changing providers within the same service and location; service portability, which permits switching between different services (e.g., from fixed to mobile) while keeping the number; and geographic (or location) portability, including local portability, which enables users to move within or across geographic areas without number change.[35] These types apply primarily to national E.164 numbers, with the supplement stressing that portability should not impose undue technical or administrative burdens on networks. Implementation procedures rely on standardized mechanisms to update routing without modifying the E.164 number itself, typically through database-driven lookups.[36] For instance, originating networks query centralized or decentralized databases (such as those using look-up services) to identify the current recipient network for a ported number, enabling accurate call redirection via signaling protocols.[37] Routing updates occur in real-time or via periodic synchronization, supporting solutions like look-up-based, range-based, path-based, and full path-based methods to handle portability at local, regional, or national levels.[36] The ITU-T plays a central role in harmonization by coordinating with member administrations to align national practices, requiring reports on numbering plan implementations including portability, and monitoring for potential misuse or conflicts in E.164 resource allocation.[1] In practice, these guidelines impact services like international roaming, where ported geographic numbers ensure uninterrupted access across borders by leveraging consistent E.164 routing.[37] Similarly, for freephone numbers (e.g., those starting with +800), portability allows retention during provider switches, maintaining global accessibility for toll-free services without format changes.[34] Overall, the supplement promotes efficient, non-disruptive portability to enhance user mobility and network efficiency worldwide.

Terminology and Harmonized Numbers

Supplement 2 to ITU-T Recommendation E.164, revised in June 2020, establishes standardized terminology to facilitate a common understanding of key E.164 numbering elements, particularly in the context of number portability and broader application.[38] It defines the country code (CC) as the 1- to 3-digit code that identifies a specific country, geographical region, or global service within the international public telecommunication numbering plan.[1] The national significant number (NSN) is specified as the portion of the international telephone number that follows the CC, consisting of the national destination code (NDC) and subscriber number (SN), with a total length of up to 14 digits when combined with the CC to form the full international number not exceeding 15 digits.[1] The international telephone number is the complete E.164-compliant format, comprising the international prefix (typically +), CC, and NSN, enabling unambiguous global routing.[1] These definitions promote consistency in numbering administration and support interoperability across networks. This supplement also introduces terms related to shared code administration, such as the identification code (IC) for global services sharing a CC, ensuring that administrative responsibilities are clearly delineated to prevent overlaps in resource allocation.[38] By standardizing these concepts, Supplement 2 aids in the integration of E.164 numbering with emerging technologies, providing clarity for next-generation networks (NGN) and Internet of Things (IoT) applications where precise terminology is essential for device identification and service provisioning.[38] Supplement 6 to ITU-T Recommendation E.164, approved in March 2012, offers guidelines for identifying and selecting globally harmonized numbers (GHNs) to support universal services across international boundaries.[39] GHNs enable the "same number – same service" principle, allowing a single E.164 number to deliver consistent functionality regardless of the national numbering plan, thereby reducing conflicts and enhancing global interoperability.[40] The guidelines outline criteria for selection, including the need for numbers to be reserved from shared country codes or specific ranges that avoid national-specific restrictions, prioritizing services like emergency communications or international roaming to ensure worldwide accessibility.[39] Harmonization through GHNs minimizes numbering resource conflicts by promoting coordinated assignment processes under ITU-T oversight, with examples including the allocation of +800 for universal international freephone services, where the IC follows the shared CC to denote global administration.[1] These provisions update E.164 frameworks to accommodate NGN and IoT demands, facilitating seamless number usage in converged networks without disrupting existing geographic allocations.[39] Number portability, as a related concept, benefits from this harmonization by allowing consistent service continuity across borders.[38]

Applications

Traditional Telephony Uses

E.164 forms the core numbering plan for international direct dialing (IDD) in the analog and digital Public Switched Telephone Network (PSTN), enabling users to place voice calls across national boundaries using a standardized format. This plan assigns a 1- to 3-digit country code followed by a national significant number of up to 14 digits, prefixed internationally with a '+', to ensure each telephone endpoint has a globally unique identifier for routing purposes. Prior to the widespread adoption of packet-switched technologies, E.164 addressed the need for reliable circuit allocation in voice-centric systems, where calls required dedicated physical paths through international exchanges.[1] Within the PSTN, E.164 numbers support global call setup through the Signaling System No. 7 (SS7) protocol suite, particularly its ISDN User Part (ISUP). In ISUP messages, such as the Initial Address Message, the called party number parameter incorporates E.164 addresses by specifying the ISDN telephony numbering plan indicator (binary 001), which directs switches to route calls based on the full international number. This mechanism ensures efficient traversal of international gateways and trunk lines, focusing on voice circuit establishment without data overlay capabilities inherent in later networks. Early mobile networks, including Global System for Mobile Communications (GSM) and Universal Mobile Telecommunications System (UMTS), integrate E.164 by assigning these numbers as Mobile Station International Subscriber Directory Numbers (MSISDNs), directly linked to a user's International Mobile Subscriber Identity (IMSI) for call termination. This linkage allows mobile subscribers to receive PSTN-originated calls as if they were fixed-line connections, extending the E.164 framework to cellular environments while maintaining compatibility with existing telephony infrastructure. A representative example is the dialing of a London landline as +44 20 XXXX XXXX, where the country code 44 routes the call internationally via SS7 to the UK network.[1][41]

Modern Network Integration

The integration of E.164 numbering into Voice over IP (VoIP) systems, particularly through the Session Initiation Protocol (SIP), enables seamless interoperability between traditional telephony and IP-based networks by embedding E.164 numbers directly into SIP Uniform Resource Identifiers (URIs). For instance, an E.164-compliant telephone number can be formatted as sip:[email protected], where the plus sign (+) denotes the international access code, followed by the country code, national destination code, and subscriber number. This approach ensures that E.164 numbers serve as stable identifiers for call routing and signaling in SIP environments, facilitating the transition from circuit-switched to packet-switched architectures without requiring a complete overhaul of existing numbering plans.[42] A key mechanism for this integration is the E.164 Number Mapping (ENUM) system, which leverages the Domain Name System (DNS) to map E.164 telephone numbers to IP-based services using Naming Authority Pointer (NAPTR) resource records. ENUM transforms an E.164 number into a fully qualified domain name by reversing the digits, appending ".e164.arpa", and storing NAPTR records that resolve to various URIs, such as SIP or email addresses, allowing dynamic discovery of a user's preferred communication endpoints. Developed under ITU-T and IETF standards, ENUM promotes convergence by enabling E.164 numbers to anchor services across Next Generation Networks (NGN), reducing reliance on proprietary gateways.[43][44] In 5G and Internet of Things (IoT) ecosystems, E.164 numbers play a critical role within the IP Multimedia Subsystem (IMS) for user identification and emergency services. Mobile Station International Subscriber Directory Numbers (MSISDNs), structured per E.164, function as Globally Public Subscription Identifiers (GPSIs) in 5G networks, providing external identifiers for devices including IoT endpoints, while supporting Subscription Permanent Identifiers (SUPIs) that link to IMS for authentication and session management. For emergency calls, IMS mandates E.164-formatted numbers in TEL-URIs to ensure location-based routing and prioritization, even for non-subscribed users, thereby maintaining reliability in heterogeneous 5G/IoT deployments.[45][46] Despite these advancements, modern integration faces challenges such as potential exhaustion of E.164 resources due to the proliferation of connected devices in IoT and 5G, necessitating mitigation strategies like flexible national numbering plans and shared country codes to optimize allocation and extend capacity. Additionally, convergence with IPv6 addresses in NGN requires resolving E.164 alongside IP identifiers, where ENUM and URI mappings bridge the gap, though interoperability issues arise from varying national implementations and the need for secure DNS resolutions. To address these, the ITU-T issued Supplement 2 to Recommendation E.164 in June 2020, providing clarifications on numbering usage in NGN contexts, including enhanced guidelines for portability and interworking to support IP-centric services.[47][48][49]

References

  1. E.164 : The international public telecommunication numbering plan
  2. What is E.164? - Twilio
  3. E.164 Format for International Phone Number Standardization
  4. What Is E.164 - Genesys
  5. E.164 Phone Number Format: Complete Validation & Conversion ...
  6. E.164 : The international public telecommunication numbering plan
  7. [PDF] ITU-T Rec. E.164 (05/97) The international public ... - ANRCETI
  8. https://www.voipstudio.com/blog/what-is-the-e-164-format-and-how-to-use-it-correctly/
  9. [PDF] Volume VI - CCITT (New Delhi, 1960)
  10. https://www.itu.int/rec/dologin_pub.asp?lang=e&id=T-REC-E.164-201011-I!!PDF-E&type=items
  11. Study Group 2 at a glance (2017-2021) - ITU
  12. [PDF] ITU-T Rec. E.164 - NUMBERING PLAN FOR THE ISDN ERA
  13. [PDF] ISDN: Numbering, Addressing, and Interworking
  14. https://www.itu.int/rec/dologin_pub.asp?lang=s&id=T-REC-E.163-198011-S%21%21PDF-E&type=items
  15. [PDF] ITU-T Rec. E.164 (02/2005) The international public ...
  16. [PDF] ITU-T Rec. E.164 (11/2010) The international public ...
  17. [PDF] ccitt - ITU
  18. [PDF] List of ITU-T Recommendation E.164 assigned country codes
  19. https://www.itu.int/rec/t-rec-e.164-201011-I/en
  20. [PDF] E. 164 – NUMBER STRUCTURE - ITU
  21. [DOC] ITU-T RECOMMENDATION
  22. ITU-T E.164 International Shared Country Codes
  23. [PDF] E.156 - ITU
  24. https://www.itu.int/dms_pub/itu-t/opb/sp/T-SP-OB.1314-2025-OAS-PDF-E.pdf
  25. https://www.itu.int/net/itu-t/inrdb/e164_intlsharedcc.aspx
  26. E.164.1 : Criteria and procedures for the reservation ... - ITU
  27. Why we dial +971 to call the UAE - The National News
  28. https://www.itu.int/rec/T-REC-E.164.2/en
  29. https://www.itu.int/rec/T-REC-E.164.3/en
  30. About NANPA - North American Numbering Plan Administrator
  31. INC Documents - ATIS
  32. [PDF] NANPA Annual Report 2023
  33. [PDF] Number Portability - ITU
  34. [PDF] ITU-T E.164 – Supplement 2
  35. [PDF] ITU-T E.164 – Supplement 2
  36. Standardization Efforts in IP Number Portability Specifications
  37. RFC 3482 - Number Portability in the Global Switched Telephone ...
  38. E.164 Suppl. 2 (06/2020) - ITU-T Recommendation database
  39. E.164 Suppl. 6 (03/2012) - ITU-T Recommendation database
  40. https://www.itu.int/dms_pubrec/itu-t/rec/e/T-REC-E.164-201203-I!Sup6!SUM-HTM-E.htm
  41. [PDF] ETSI TR 184 005 V1.1.1 (2007-11)
  42. Using E.164 numbers with the Session Initiation Protocol (SIP)
  43. [PDF] itu-t supplement to rec. e.164
  44. RFC 6116: The E.164 to Uniform Resource Identifiers (URI ...
  45. [PDF] ETSI TS 123 003 V16.3.0 (2020-10)
  46. [PDF] ETSI TS 123 167 V15.2.0 (2018-07)
  47. [PDF] ECC Recommendation (15)02
  48. [PDF] NGN Naming, Addressing and Identifications - ITU
  49. https://www.itu.int/rec/T-REC-E.164-202006-I!Sup2
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