What is GLI? Global Line Identifier

Description

The Global Line Identifier (GLI) is a critical identifier introduced in 3GPP Release 16 as part of the 5G System's support for Fixed Mobile Convergence (FMC) and wireline access integration. It is defined across several specifications, including TS 23.003 (Numbering, addressing and identification), TS 29.561 (Interworking between 5GS and wireline access), and TS 31.102 (UICC/USIM application). The GLI serves as a permanent, globally unique label for a specific physical fixed access line, such as a Digital Subscriber Line (DSL), a Passive Optical Network (PON) fiber line, or a cable modem connection.

Architecturally, the GLI is assigned by the fixed network operator and is associated with the network termination equipment at the customer premises (e.g., the Residential Gateway or Optical Network Terminal). In the 5G convergence scenario, the User Equipment (UE)—which could be a 5G residential gateway—uses the GLI during registration and authentication procedures over the fixed access network. The GLI is conveyed to the 5G Core Network (5GC) within the Access Network parameters during the N2 interface signaling (e.g., in the NGAP Initial UE Message or in the authentication signaling).

How it works involves several network functions. Upon receiving the GLI, the Access and Mobility Management Function (AMF) can use it to correlate the access session with subscriber data. The Authentication Server Function (AUSF) may utilize the GLI, potentially alongside other credentials, for authentication and authorization. Crucially, the GLI enables the 5GC to apply specific policies for that fixed line via the Policy Control Function (PCF). For example, it allows the network to identify that the access is coming from a trusted, fixed broadband subscription and apply appropriate QoS policies, charging rules, or service entitlements that differ from those for mobile access.

Its role extends beyond simple identification. The GLI is a key enabler for seamless service experience across access types. It allows operators to offer unified service plans where a subscriber's services, security policies, and quality of experience are consistent whether connected via a 5G radio or a home broadband line. Furthermore, it aids in network slicing for fixed access, where a slice instance can be associated with a specific set of physical lines identified by their GLIs. This deep integration of fixed line identity into the 5G core is a foundational step for truly converged networks.

Purpose & Motivation

The GLI was created to solve the problem of identity and policy disjoint in converged network architectures. Prior to its standardization, fixed and mobile networks operated largely in silos. A fixed broadband line was identified by operator-specific, non-global identifiers (like circuit IDs or PVC/VPI values), and the mobile core had no standardized way to recognize or trust a fixed access leg. This hindered the deployment of truly unified authentication, billing, and service policies across access domains.

The motivation stemmed from the industry drive towards 5G Fixed Wireless Access (FWA) and deeper Fixed Mobile Convergence. Operators wanted to leverage their 5G core to manage all types of access, including wireline, to reduce operational costs and create new bundled services. A globally unique, standardized identifier for the fixed line was a prerequisite for this vision. It addresses the limitation of proprietary or access-technology-specific identifiers that could not be reliably interpreted by a common mobile core network.

By providing the GLI, 3GPP enabled several key use cases: secure authentication of a residential gateway over a fixed network using 5G credentials (like a SIM), application of subscriber-specific QoS and bandwidth policies based on the physical line capabilities, and accurate charging for converged services. Its introduction in Release 16 was a direct response to operator requirements for a single, agile core network capable of managing heterogeneous access, a central tenet of the 5G system design.

Detected Changes Across Releases

from 3GPP Change Requests

Specific changes extracted from the „Change history“ tables of 3GPP specifications (34 CRs across 5 releases). Complements the general historical overview above with the evidence-based evolution of this function.

Rel-15 7 changes

In Release 15, the Global Line Identifier (GLI) was newly introduced as a specific type of Subscription Permanent Identifier (SUPI) for the 5G System, taking the form of a Network Access Identifier (NAI). It was defined alongside the Global Cable Identifier (GCI) as a non-IMSI SUPI type, for which the Home Network Identifier is a domain name and the null protection scheme is mandated. The GLI provides a globally unique subscription identifier format for use in 5G networks.

Subscription identifier privacy suppport TS 31.102CR0778
Correction relating to the introduction of the General Public Subscription Identifier TS 29.594CR0026
External Identifier on Sh TS 23.003CR0468
External identifier in 5G TS 23.003CR0498
Changed length and mapping of 5GS Temporary Identifiers TS 23.003CR0503
Internal-Group Identifier TS 23.003CR0520

+ 1 more changes

Rel-16 11 changes

In Release 16, the GLI (Global Line Identifier) was formally defined as a new type of SUPI, taking the form of a Network Access Identifier (NAI). This enabled the GLI to be used within a SUCI for privacy protection, specifically mandating the use of the null protection scheme when the SUPI type is a GLI. Furthermore, the specification clarified that for a GLI, the Home Network Identifier within the SUCI is a domain name derived from the realm part of its NAI format.

Support of SUCI for SUPI Type GLI and GCI TS 31.102CR0896
Correct network identifier for SNPN TS 29.561CR0067
Network Identifier for SNPN TS 23.003CR0539
Clarification of possible values for Home Network Public Key Identifier of SUCI TS 23.003CR0549
Definition of Global Line Identifier TS 23.003CR0550
Global uniqueness of NID TS 23.003CR0553

+ 5 more changes

Rel-17 3 changes

In Release 17, the Global Line Identifier (GLI) was formally defined as a new type of Subscription Permanent Identifier (SUPI) alongside the IMSI and Network Specific Identifier. The GLI takes the form of a Network Access Identifier (NAI) and, when used as a SUPI, its Home Network Identifier is a domain name string. Furthermore, the specification mandates that the null protection scheme shall be used for SUPI concealment when the SUPI type is a GLI.

Group Identifier for Network Selection TS 23.003CR0636
Correction of file identifier for EF5G_PROSE_UIR TS 31.102CR0982
DNN Operator Identifier in SNPN TS 23.003CR0639

Rel-18 7 changes

In Release 18, the GLI (Global Line Identifier) function was enhanced by clarifying its use as a Subscription Permanent Identifier (SUPI) type, specifically defined to take the form of a Network Access Identifier (NAI). The release also specified that when a GLI is used in a Subscription Concealed Identifier (SUCI), the null protection scheme must be applied, and its Home Network Identifier is defined as a domain name string corresponding to the realm part of its NAI format.

SNPN Identifier based N3IWF FQDN TS 23.003CR0687
NSI Identifier definition TS 23.003CR0678
NSAC Service Area Identifier TS 23.003CR0677
Adding LCS specific identifiers TS 23.003CR0701
Adding MPQUIC specific identifier TS 23.003CR0702
Correction of DF Identifier for 5MBSUECONFIG TS 31.102CR0984

+ 1 more changes

Rel-19 6 changes

In Release 19, the GLI (Global Line Identifier) function was enhanced by clarifying its role as a type of SUPI formatted as a Network Access Identifier (NAI), which allows it to be used in the SUCI concealment procedure with the null protection scheme. The release also introduced corrections and cleanup to identifier definitions, including those for Ambient IoT, ensuring consistent application across services like LCS. Furthermore, new identifiers were defined for specific functions, such as a permanent identifier for AIoT devices and an LCS-UP Connection Identifier for securing user-plane connections.

Non-3GPP Device Identifier TS 23.003CR0708
Definition of AIoT Device Permanent Identifier TS 23.003CR0713
LCS identifiers TS 23.003CR0715
Correction of LCS User Plane Binding Identifier Definition and Reference TS 23.003CR0728
Define LCS-UP Connection Identifier for identifying secured user-plane connections between UE and LMF TS 23.003CR0729
Correction and Cleanup on Ambient IoT Identifiers TS 23.003CR0738

Explore further

Broader topics and technologies where GLI plays a role.

Topics

Authentication (5G-AKA, EAP)Mission Critical (MCPTT)Policy & Charging Lawful Intercept Network Slicing 5G Core (5GC)

Technologies

Defining Specifications

3GPP specifications that define or reference GLI, with the latest known release. Sourced from the 3GPP document catalog — see methodology.

Specification	Title	Release
TS 23.003 vj50	Numbering, addressing and identification in 3GPP	Rel-19
TS 29.561 vj30	5G Interworking with External Data Networks	Rel-19
TS 29.594 vj20	5G Spending Limit Control Service Stage 3	Rel-19
TS 31.102 vj40	USIM Application Specification	Rel-19