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Closed user group

A Closed User Group (CUG) is a supplementary service in telecommunications networks that enables subscribers to form restricted groups, allowing communication among members while generally barring or limiting access to and from users outside the group, except for emergency calls.^[1] This service originated in 1992 Integrated Services Digital Network (ISDN) standards, where it was defined to restrict access to and from designated user groups, with a single user potentially belonging to multiple such groups.^[2] Primarily implemented in public land mobile networks (PLMNs), members of CUGs are identified by their ISDN or MSISDN numbers, with each CUG identified by a unique interlock code; the service supports features like preferential intra-group calling rates, incoming call barring (ICB), outgoing call barring (OCB) within the group, and options for exclusive CUG-only access or combined access with external networks.^[1] In mobile telephony, CUGs facilitate secure and cost-effective communication for organizations, such as businesses or enterprises, by enabling unlimited or discounted calls among group members while enforcing restrictions during roaming to networks that support the service.^[1] Subscribers can join up to 10 CUGs, with the network validating calls using a CUG index or preferential CUG identifier to ensure compliance with group rules.^[1] Beyond traditional telephony, similar concepts have been adapted for data networks, such as virtual private networks (VPNs)^[3] and internet exchanges,^[4] where closed groups define rules for data sharing among invited members. CUG services remain relevant for privacy-focused applications, including corporate teams, emergency response units, and specialized communities, providing a balance between isolation and controlled external connectivity.

Overview

Definition

A closed user group (CUG) is a supplementary service in public telecommunications networks that allows a predefined set of subscribers to communicate exclusively among themselves, while restricting or barring interactions with external users.^[5] This service operates within systems such as Integrated Services Digital Network (ISDN) and public land mobile networks (PLMN), with possible interworking to the public switched telephone network (PSTN), enabling intra-group calls, messaging, or data exchange at preferential rates or without charge, but generally prohibiting outgoing or incoming connections to non-members.^[6] Members of a CUG may belong to one or multiple public or private networks, and the group is typically identified by a unique CUG index or identifier assigned to each participating subscriber.^[7] Core components of a CUG include the group membership mechanism, which uses the CUG identifier to validate calls, and intra-group privileges such as free or discounted voice calls, short message service (SMS), or data sessions among members.^[8] Optional features may permit limited outgoing access to external numbers, but only under predefined conditions, ensuring controlled communication.^[9] A single subscriber can belong to multiple CUGs simultaneously, with the network enforcing the appropriate restrictions based on the invoked group index during call setup.^[10] CUGs support two primary types of restrictions: fully closed groups, where no external calls are allowed in either direction, and partially open groups, which may include allowances for outgoing calls to specific external destinations or mandatory access to emergency services while still barring general external interactions.^[11] This structure emphasizes privacy and controlled access, distinguishing CUGs from open public networks by limiting exposure to unauthorized parties and facilitating secure, cost-effective group communications in ISDN or mobile environments.^[12]

Key Features

Closed user groups (CUGs) in telecommunications are defined by configurable service parameters that govern group composition and call handling. The maximum number of members in a CUG is typically determined by the network operator, with examples ranging from 200 for small and medium enterprises to 10,000 for non-governmental organizations, though some regulators impose no upper limit on membership size.^[13]^[14] Intra-group calls are handled with preferential tariffs, often zero-rated or discounted to encourage internal communication, while call durations or volumes may be unlimited or subject to operator-defined quotas.^[15] Each CUG is assigned a unique interlock code (IC) for identification across networks. Access controls form a core aspect of CUG operation, ensuring restricted communication primarily within the group. Incoming calls from non-members are generally barred, though optional incoming access (IA) can permit external calls under specific conditions. Outgoing calls are restricted to group members or pre-whitelisted numbers, with outgoing access (OA) available as an option to allow external dialing; barring options include incoming calls barred within CUG (ICB) and outgoing calls barred within CUG (OCB).^[15] Subscribers may belong to multiple CUGs, with a maximum of 10 groups per user in many systems, and can enable a preferential CUG for default routing.^[16] CUGs integrate with supplementary services to enhance functionality while preserving group restrictions. Compatibility with call forwarding (unconditional, on busy, no reply, or not reachable) allows intra-group redirection without violating access controls.^[15] Some implementations support SMS-only CUGs for low-data communication, limiting interactions to messaging within the group to reduce costs.^[16] User management in CUGs is handled through operator provisioning to maintain security and control. Subscribers join or leave a group via requests to the service provider, who assigns or revokes membership using the CUG index and interlock code; administrative actions or provider withdrawal can also effect changes. This process ensures that only authorized users are included, with network-defined limits on the number of CUGs per subscriber.^[16]

Historical Development

Origins in ISDN

The concept of closed user groups (CUGs) emerged in the 1980s as part of the supplementary services defined for the Integrated Services Digital Network (ISDN), designed to facilitate private virtual networks over public telecommunications infrastructure. These services addressed the need for restricted access communities within the evolving digital telephony framework, building on earlier data network precedents while adapting to ISDN's integrated voice and data capabilities.^[17] A pivotal milestone came with ITU-T Recommendation I.255.1, published in August 1992, which provided a comprehensive definition of the CUG supplementary service for ISDN. This recommendation specified mechanisms for forming groups where access to and from members is restricted, allowing a single user to belong to multiple CUGs and supporting both voice and non-voice communications across public networks; it superseded an initial 1988 version that laid the foundational descriptions.^[2] In its early applications, CUGs were primarily targeted at enterprises seeking secure internal communications, enabling features like closed dialing plans that replicated the restricted numbering and call routing of private branch exchanges (PBXs) without requiring fully dedicated lines. This allowed businesses to maintain transparent, abbreviated dialing within the group while leveraging the cost efficiencies of public ISDN infrastructure.^[18] The introduction of CUGs in ISDN responded to the increasing demand for economical private networking options during the late 1980s and early 1990s, a period before widespread mobile telephony adoption, when corporations relied on fixed-line solutions to achieve scalable, secure connectivity for distributed operations.

Adoption in Mobile Networks

The Closed User Group (CUG) supplementary service was introduced in the Global System for Mobile communications (GSM) during the 1990s as part of the European Telecommunications Standards Institute (ETSI) specifications, enabling mobile subscribers to establish restricted groups for intra-network voice calls limited to fellow members. Defined in GSM 02.85 (Stage 1), the service allows users to join up to 10 CUGs, identified by an interlock code, with options for incoming and outgoing access to external networks while prioritizing group-internal communications. This adaptation from fixed-line telephony addressed the need for controlled, cost-efficient calling in mobile contexts, where subscribers could invoke the service explicitly by dialing a CUG index or implicitly for default groups.^[12] The CUG service persisted into third-generation (3G) and fourth-generation (4G) networks through 3GPP specifications, retaining core functionality in Universal Mobile Telecommunications System (UMTS) and Long-Term Evolution (LTE) environments as outlined in TS 22.085 (Stage 1), while maintaining support for up to 10 CUGs per subscriber. Roaming subscribers could access CUG facilities in visited public land mobile networks (PLMNs) that supported the service, ensuring continuity for intra-group interactions across borders. The service continued into fifth-generation (5G) networks, with TS 22.085 remaining under active change control as of Release 18 (2025).^[15]^[19] By the 2000s, mobile operators in emerging markets, including regions in Africa and Asia, widely adopted CUG for business fleets to facilitate seamless internal coordination, often featuring unlimited intra-group calls and roaming where network support existed. For instance, in rural Ghana, health teams leveraged CUG-enabled mobile phones for cost-free inter-member calls as part of community development initiatives. This uptake was driven by the service's alignment with growing mobile penetration in these areas, where it supported enterprise needs like fleet management without extensive infrastructure overhauls.^[20]^[21] Implementing CUG in mobile networks required adaptations to manage mobility challenges, such as verifying group membership during location updates and call setups via the Visitor Location Register (VLR), which cross-references subscription data against the CUG interlock code. For mobile-originated and terminated calls, the Mobile Switching Center (MSC) and Gateway MSC enforced restrictions, rejecting unauthorized attempts while preserving emergency access. Billing integration posed further adaptations, with operators configuring systems to apply zero or preferential rates for intra-group usage across prepaid and postpaid accounts, ensuring accurate charging information was generated without disrupting standard mobility procedures.^[22]

Technical Implementation

In GSM and 3GPP Networks

In GSM and 3GPP networks, the Closed User Group (CUG) supplementary service is implemented through the Mobile Application Part (MAP) protocol over the Signaling System No. 7 (SS7) network, enabling membership management and call restriction enforcement. CUG membership is managed by the network operator, who provisions the subscriber's CUG information (including indices and interlock codes) in the HLR. Updates to subscriber data, such as adding or removing CUG subscriptions, are performed using MAP_INSERT_SUBSCRIBER_DATA and MAP_DELETE_SUBSCRIBER_DATA operations between the Mobile Switching Center (MSC)/Visitor Location Register (VLR) and the HLR. Activation and deactivation of the CUG supplementary service are handled via MAP_REGISTER_SS and MAP_ERASE_SS, ensuring secure and authenticated group membership changes.^[23] During call setup, intra-CUG calls are routed with HLR checks to verify membership of both calling and called parties. For mobile-originated calls, the mobile station (MS) explicitly invokes the CUG by including the forwardCUG-Info in the Setup message, specifying the CUG index; the MSC/VLR then queries the HLR via MAP to authorize the call, ensuring the destination is within the same group, and routes it accordingly if valid. For mobile-terminated calls, the Gateway MSC (GMSC) forwards CUG information to the HLR during the sendRoutingInfo MAP operation, where the HLR performs membership validation and returns routing details only if the call complies with CUG restrictions, such as preferential or exclusive access modes. Call barring for non-intra-CUG attempts is enforced through supplementary service control, using Mobile Station Integrated Services Digital Network (ISDN) number (MSISDN) dialing strings like those defined in 3GPP TS 24.080 for activation and deactivation.^[24]^[25] Network elements play critical roles in CUG handling, with the HLR serving as the central repository for subscriber CUG subscriptions, including interlock codes, indices, and access rights, which it downloads to the VLR upon location updates. The VLR manages local enforcement during roaming, retrieving CUG data via MAP InsertSubscriberData and applying restrictions for intra-group calls across visited networks, ensuring seamless operation even when subscribers roam to other public land mobile networks (PLMNs) that support CUG. Billing systems integrate with the MSC to identify intra-CUG traffic, often applying zero-rating for such calls by referencing the CUG index in charging data records (CDRs), as per operator-configured policies aligned with 3GPP charging principles.^[22] Enhancements in later 3GPP releases, particularly through TS 24.080, support multiple CUGs per subscriber, with a maximum of 10 groups allowed, each identified by a unique CUG index for selective invocation during non-call-related procedures like registration or USSD interactions. This enables flexible management, where subscribers can switch between groups using the cug-Index parameter in forwardCUG-Info arguments, and the network handles conflicts via preferential CUG settings stored in the HLR. These provisions extend CUG functionality beyond basic GSM to UMTS and beyond, maintaining backward compatibility while improving group handling efficiency.^[12]^[25] In IP Multimedia Subsystem (IMS) networks, the CUG supplementary service is implemented using SIP-based procedures, as defined in 3GPP TS 24.654. This allows for restricted group communication in packet-switched domains, with membership validation and call restrictions enforced through IMS core network elements like the Serving-CSCF (S-CSCF) and Home Subscriber Server (HSS), maintaining compatibility with earlier circuit-switched features.^[26]

In Fixed-Line and VPN Services

In fixed-line networks, Closed User Group (CUG) services were initially implemented through Integrated Services Digital Network (ISDN) protocols, where the Digital Subscriber Signalling System No. 1 (DSS1) facilitates call setup using the Q.931 layer 3 specification.^[16] The network performs CUG selection by analyzing the called party number during the SETUP message, incorporating a Facility information element that carries the CUG index (ranging from 0 to 32767) to invoke the cUGCall component. This analysis includes checks against the calling and called ISDN numbers, along with subscriber CUG attributes, to validate membership and apply restrictions at the originating and destination networks.^[16] If no explicit CUG is requested, a preferential default CUG may be applied if subscribed, ensuring restricted communication within the group.^[16] In modern IP-based Virtual Private Networks (VPNs), CUG functionality is integrated through systems like Oracle Communications Network Charging and Control (NCC), where groups are defined at the network level via a dedicated CUG tab on the VPN configuration screen.^[3] Station selection occurs by choosing specific endpoints from associated networks, allowing stations to belong to multiple CUGs, with access controlled by lists that restrict intra-group data and voice communications to authorized members.^[27] CUG types—restricted (intra-group calls only) or unrestricted (broader access)—are enforced using Personal Identification Numbers (PINs) for incoming calls, with configurable lengths (default 4 digits), providing secure delineation for voice and data flows within enterprise VPNs.^[3] Call routing in these fixed-line and VPN CUG setups relies on prefix-based dialing, where users dial a CUG code followed by an internal extension or station identifier, enabling the network to map and route calls internally without public exposure.^[27] Barring mechanisms operate via network switches using blacklists and whitelists (up to 1000 entries each) that filter prefixes or full numbers, overriding station-level permissions to prevent unauthorized access; for example, empty allowed lists bar all calls, while empty barred lists permit all.^[27] Enterprise configurations support large-scale groups with thousands of members by aggregating multiple networks and stations, facilitating efficient routing in distributed setups.^[27] CUG persists in legacy Public Switched Telephone Network (PSTN) environments through closed dialing plans on leased lines, historically isolated from public networks to ensure intra-group exclusivity.^[28] Migration paths to Voice over IP (VoIP) equivalents involve transitioning to software-enabled VPN integrations over public infrastructure, replacing physical leased lines with logical groupings and SIP-based controls for continued restricted access.^[28]

Applications and Benefits

Business Use Cases

In enterprise communication, companies frequently form Closed User Groups (CUGs) to enable unlimited or discounted calls and SMS among employee lines, facilitating seamless internal coordination. For instance, sales teams with over 50 members can utilize CUGs to conduct frequent interactions without incurring standard per-minute charges, enhancing productivity in dynamic environments.^[29] Telecom operators such as Orange provide CUG services tailored for business fleets, allowing organizations to manage communication costs effectively. In one application, logistics firms leverage group messaging for vehicle tracking and dispatch coordination, as demonstrated in a 2013 study of a rural Ghanaian non-governmental organization where a CUG supported 79 health team members, including ambulance drivers, for real-time updates in underserved areas.^[30]^[31] CUG implementations vary by organizational scale, from small groups of 5-10 lines suited to startups for basic team connectivity to large deployments exceeding 500 lines in corporations, often established through bulk SIM provisioning to streamline activation.^[32]^[29]^[33] In African markets characterized by high call tariffs, CUGs are adapted for cost control, enabling enclosed groups in sectors like public services and enterprises to maintain affordable internal networks. Operators like MTN and Africell in Uganda and Sierra Leone, respectively, support such setups with minimum thresholds and flexible additions, prioritizing enclosed communication in resource-constrained settings.^[32]^[29]^[30] Beyond business, CUGs are applied in emergency response units for coordinated real-time communication among team members during crises, ensuring secure and reliable connectivity while allowing controlled access to external emergency services. Specialized communities, such as research collaborations, also use CUGs to facilitate focused data and voice exchanges among invited participants.^[1]

Security and Cost Advantages

Closed user groups (CUGs) enhance security by restricting communications to a predefined set of members, creating an isolated network that prevents unauthorized external access and intra-group entry by non-members. This controlled environment significantly reduces exposure to external threats, such as spam calls and unsolicited messages, as incoming and outgoing communications are limited to group participants only. For instance, in corporate settings, this isolation safeguards sensitive discussions from eavesdropping or interception attempts outside the group.^[34]^[35]^[36] The cost advantages of CUGs stem primarily from zero-rated or preferential tariffs for intra-group voice calls and SMS, enabling unlimited or low-cost communication among members without standard per-minute or per-message charges. This results in substantial bill reductions for organizations with frequent internal interactions, such as sales teams or field operations, where high-volume usage could otherwise lead to significant expenses.^[32]^[37]^[38] CUGs also aid in risk mitigation by enabling the enforcement of organizational policies, such as outgoing call barring within the group to restrict intra-CUG communications for specific members, which can be combined with other call barring services to control access like international calls in line with compliance requirements or budget controls. For SMS within CUGs, the closed nature of the service protects sensitive information by ensuring exchanges remain confined to verified group members, reducing the risk of data leaks to external parties. These features promote accountability, as seen in regulated environments like Nigeria, where member verification via National Identification Numbers (NIN) is mandatory per NCC regulations (as of the July 2025 amendments).^[36]^[39]^[13] Despite these benefits, CUGs can face challenges from potential intra-group overuse in the absence of strict volume limits, which may strain network resources or inflate administrative costs; operators mitigate this through ongoing usage monitoring and adjustable service parameters to maintain efficiency.^[34]

Standards and Specifications

ITU-T Recommendations

The International Telecommunication Union Telecommunication Standardization Sector (ITU-T) plays a pivotal role in establishing global standards for closed user group (CUG) services, particularly within the framework of Integrated Services Digital Network (ISDN). The primary recommendation governing CUG is ITU-T Rec. I.255.1 (08/1992), which defines the CUG as a community of interest supplementary service for ISDN, enabling users to form restricted groups for communication while specifying service descriptions, operational provisions, and interface requirements to ensure consistent implementation across international networks.^[40] This recommendation outlines the scope of CUG to encompass public ISDN users who can form groups spanning multiple networks, with explicit provisions for interworking between national systems to facilitate seamless connectivity for group members identified by ISDN numbers. Interworking is particularly addressed for scenarios involving both public and private ISDN users, ensuring restricted access is maintained without compromising service integrity. CUG integrates with the broader ISDN framework as described in ITU-T Rec. I.200 (general concepts and principles) and I.300 series (overall network aspects and service descriptions), which provide the foundational structure for supplementary services like CUG, including specifications for charging principles based on usage within groups and performance metrics such as call setup delays to support reliable international operation.^[41] Revisions in the late 1990s extended CUG provisions for compatibility with broadband ISDN (B-ISDN), notably through ITU-T Rec. Q.2735.1 (06/1997) for stage 3 descriptions in B-ISDN environments, though adoption remained limited due to the shift toward packet-switched networks.^[42] These enhancements focused on signaling extensions in the B-ISDN user part to accommodate higher-speed interfaces while preserving core CUG restrictions.

ETSI and Regional Standards

The European Telecommunications Standards Institute (ETSI) developed specific specifications for Closed User Group (CUG) services in the context of Global System for Mobile Communications (GSM), with ETS 300 518 (GSM 02.85, 1994) providing the stage 1 service description for GSM Phase 2. The stage 3 protocol description is outlined in GSM 04.85 (ETSI TS 124 085 from 2000 onward), detailing functional requirements, signaling procedures at the radio interface, information flows between network elements, and error handling mechanisms such as rejection causes for invalid CUG selections.^[43] These specifications ensured interoperability across pan-European mobile networks by defining how mobile switching centers (MSCs) process CUG invocations, including intra- and inter-CUG call routing with outgoing access controls. In alignment with 3GPP standards, CUG for mobile networks is detailed in TS 22.085 for stage 1 service aspects, specifying requirements like CUG index selection, preferential CUG handling, and allowance for outgoing calls to public networks or other groups, ensuring compatibility with GSM and evolved systems.^[36] The Mobile Application Part (MAP) protocol in TS 29.002 supports CUG implementation by defining operations such as registerSS for CUG activation/deactivation and processAccessSignalling for inter-MSC coordination, enabling features like outgoing access allowance through parameter negotiation in SS-Data and SS-Info elements. These 3GPP documents build on ETSI's foundational work, providing a unified framework for supplementary services in mobile environments. Regional adaptations of CUG standards appear in emerging markets, where operators in Africa and Asia implement variations to suit local regulatory and economic contexts, often guided by association recommendations for tariff structures and group management. For instance, in Nigeria, the Nigerian Communications Commission (NCC) mandates a minimum group size of three subscribers for CUG services, restricts offerings to voice and SMS within or outside the group at discounted rates, and sets tariff norms with monthly access fees ranging from N400 to N5,000 for prepaid and postpaid plans to promote affordability and prevent abuse (as of July 2025).^[13] Similarly, in India, the Telecom Regulatory Authority of India (TRAI) oversees CUG tariff schemes that include options for intra-group only calls or with outgoing allowances, emphasizing transparent pricing and business-oriented adaptations, with regulatory caps on discounts to ensure fair competition (as of 2024). These variations align with broader GSMA efforts to standardize supplementary services in developing regions, focusing on scalable implementations for enterprise users. ETSI and 3GPP standards for CUG have evolved to support 5G through Release 15 and later, maintaining legacy CUG supplementary services via core network enhancements like the Access and Mobility Management Function (AMF), with TS 22.085 updated to reference 5G service requirements and backward compatibility for GSM/UMTS subscribers transitioning to 5G ecosystems.^[36] In 5G, similar isolation is achieved through network slicing for data traffic and Closed Access Group (CAG) for Non-Public Networks (introduced in Release 16), providing closed group access akin to CUG but tailored for 5G standalone deployments.^[44]

References

[1]
https://www.3gpp.org/specifications/22-series/22-085-closed-user-group-cug
[2]
6 Defining Closed User groups - Oracle Help Center
The CUG tab on the VPN Network screen allows you to define the Closed User Group (CUG) for the network. To define a CUG, you select the stations to include, and ...
[3]
None
### Summary of ITU-T Rec. Q.85.1: Closed User Group (CUG) Supplementary Service
[4]
[PDF] ETSI TS 122 085 V7.0.0 (2007-06)
The Closed User Group (CUG) Supplementary Service enables subscribers, connected to a PLMN and possibly also other networks, to form closed user groups (CUGs) ...
[5]
https://www.itu.int/rec/dologin_pub.asp?lang=e&id=T-REC-Q.85.1-199202-I!!PDF-E&type=items
[6]
[PDF] ETSI TS 123 085 V3.1.0 (2000-10)
The present document gives the stage 2 description of the closed user group supplementary service. The community of interest supplementary service defined is: - ...
[7]
https://www.itu.int/rec/dologin_pub.asp?lang=s&id=T-REC-I.255.1-199208-I!!PDF-E&type=items
[8]
[PDF] ETSI TS 124 654 V10.1.0 (2012-03)
A closed user group consists of a number of members from one or more public, and/or private networks. A specific user may be a member of one or more CUGs.
[9]
https://www.itu.int/rec/dologin_pub.asp?lang=s&id=T-REC-U.12-198811-S!!PDF-E&type=items
[10]
[PDF] GSM 02.85 - Version 5.0.0 - ETSI
The Closed User Group (CUG) Supplementary Service enables subscribers, connected to a PLMN and possibly also other networks, to form closed user groups (CUGs) ...
[11]
[PDF] conditions for offering closed user group (cug) services in the ... - NCC
categories are presented below: I. MSME- 200;. II. Resident Estates Associations- 2,000;. III. Not for Profit (NGO)- 10,000;.
[12]
[PDF] Consultation Paper - Telecom Regulatory Authority of India
“The supplementary service closed user group (CUG) enables users to form ... and there is no limit on the maximum number of members in a CUG. 4. CUG tariff ...
[13]
[PDF] ETSI TS 122 085 V16.0.0 (2020-08)
Closed User Group (CUG) supplementary services;. Stage 1. (3GPP TS 22.085 version 16.0.0 Release 16). TECHNICAL SPECIFICATION. GLOBAL SYSTEM FOR. MOBILE ...Missing: features | Show results with:features
[14]
[PDF] Closed User Group (CUG) supplementary service; Digital S - ETSI
This first part of EN 300 138 specifies the stage three of the Closed User Group (CUG) supplementary service for the pan-European Integrated Services Digital ...Missing: 255.1 | Show results with:255.1
[15]
I.250 : Definition of supplementary services
### Summary of Closed User Group (CUG) as an ISDN Supplementary Service from ITU-T Recommendation I.250
[16]
I.255.1 : Community of interest supplementary services : Closed User Group
**Summary of ITU-T Recommendation I.255.1: Closed User Group for ISDN**
[17]
[PDF] ETR 301 - Users' Expectations; Virtual Private Networks - ETSI
A CUG can have members from one or more public networks. In. ISDN, each member of a CUG is identified by their ISDN number (see also subclauses 8.9 and 8.13 in.Missing: enterprises | Show results with:enterprises
[18]
[PDF] The Competitiveness of the U.S. Telecommunications Industry
Large corporations increasingly use private networks as a cost-effective means of moving voice and data communications. ... 4" Defining a closed user group is ...
[19]
[PDF] TS 133 108 - V13.2.0 - ETSI
Data Services, Circuit Switched Services, Multimedia Services within the Universal ... Closed user group interlock code Closed user group interlock code.
[20]
An exploration of a closed user group in rural Ghana - ResearchGate
Aug 7, 2025 · In the Millennium Villages Project site of Bonsaaso, Ghana, the Health Team is using a mobile phone closed user group to place calls amongst one another at no ...Missing: markets Asia
[21]
TS 22.085 (3Q25/19 p.) – CUG: Closed User Group - Tech-invite
The Closed User Group (CUG) service allows subscribers to form restricted groups. Members can communicate among each other, but generally not with users ...
[22]
[PDF] GSM 03.85 - Version 5.0.0 - ETSI
This GTS defines the stage 2 of the Closed User Group (CUG) supplementary services within the digital cellular telecommunications system. The contents of this ...
[23]
[PDF] ETSI TS 129 002 V16.3.0 (2021-08)
The present document may refer to technical specifications or reports using their 3GPP identities. These shall be interpreted as being references to the ...Missing: RegisterCUG EraseCUG
[24]
[PDF] ETSI TS 123 085 V17.0.0 (2022-04)
CUG terminology defined in 3GPP TS 22. 085 [2] is applicable to the present document. In addition, the following definitions apply. CUG Authorisation Functions: ...Missing: features | Show results with:features
[25]
[PDF] ETSI TS 124 080 V16.3.0 (2021-08)
- ms mobile subscriber;. - ss supplementary services;. - cug closed user group. The ASN.1 data type which follows the words "ARGUMENT", "PARAMETER" or "RESULT ...
[26]
[PDF] Oracle Communications Network Charging and Control Virtual ...
route the call through the PSTN (or mobile network). ... CUG PIN to make a call to a station in the CUG. ... The Old National Routing Prefix in this field ...
[27]
None
### Summary of Closed User Group (CUG) and VPN Services in Fixed-Line Networks
[28]
Business Voice - Africell SL
The Closed User Group (CUG) is a telephony service that enables members of a particular group to do voice communication between themselves. It enables ...
[29]
Closed user group (CUG) | Communications - Orange Sierra Leone
Orange Close User Group (CUG) is a SMS 'Free' service and discounted voice calls for users within a group. It is a cost control offer.Missing: intra- | Show results with:intra-
[30]
Analysis of a Mobile Phone Closed User Group Used by a Ghanaian ...
Apr 3, 2013 · The network structure of an organization influences how well or poorly an organization communicates and manages its resources.
[31]
MTN Closed User Group
MTN Closed User Group is a value-added service that enables users within a pre-defined group to make calls to one another for free or at preferential ...
[32]
Provision of GSM and DID services for United Nations Organization ...
Sep 9, 2022 · f. Closed User Group (CUG) services which should include all SIM cards issed/used in the UN. g. Provisioning of four-digit Emergency dialing h ...
[33]
[PDF] ETSI TS 122 085 V19.0.0 (2025-10)
The Closed User Group (CUG) Supplementary Service enables subscribers, connected to a PLMN and possibly also other networks, to form closed user groups (CUGs) ...Missing: advantages | Show results with:advantages
[34]
Benefits of Closed User Group for Businesses - STN.ng
Jul 22, 2024 · A Closed User Group (CUG) is a private communication group restricted to a specific set of users, often forming a close-knit community within ...
[35]
[PDF] ETSI TS 122 085 V18.0.1 (2024-05)
Universal Mobile Telecommunications System (UMTS);. Closed User Group (CUG) supplementary services;. Stage 1. (3GPP TS 22.085 version 18.0.1 Release 18).Missing: MMS | Show results with:MMS
[36]
Closed User Group (CUG) - Digicel Pacific
Manage your mobile costs with unlimited calling, within your designated employee groups, at a low flat monthly fee.Missing: intra- | Show results with:intra-<|separator|>
[37]
du introduces “The Executive Plan Plus” in partnership with Air Miles
Aug 28, 2013 · o 100percentage discounted calls within customer's Closed User Group (CUG) o Roaming service activated by default without deposit. For more ...
[38]
closed user group (cug) services - Imperial Law Office
Nov 1, 2023 · NIGERIAN COMMUNICATIONS COMMISSION REVAMPS CLOSED USER GROUP (CUG) SERVICES ... security, privacy, and cost-efficiency. The Nigerian ...<|separator|>
[39]
https://imperiallawoffice.com/blog/nigerian-communications-commission
[40]
https://www.itu.int/rec/dologin_pub.asp?lang=e&id=T-REC-I.255.1-199208-I!!PDF-E&type=items
[41]
Integrated services digital network - ITU
I.255.1. Community of interest supplementary services : Closed User Group. I.255.2. Community of interest supplementary services : Support of Private Numbering ...Missing: origins | Show results with:origins
[42]
https://www.itu.int/rec/dologin_pub.asp?lang=e&id=T-REC-Q.2735.1-199706-I!!PDF-E&type=items
[43]
[PDF] ETSI TS 124 085 V17.0.0 (2022-04)
Closed User Group (CUG) supplementary service;. Stage 3. (3GPP TS 24.085 ... In 3GPP TS 24.010, the general aspects of the specification of supplementary services ...