Homogeneous Extended Service Set Identifier

Description

The Homogeneous Extended Service Set Identifier (HESSID) is a 48-bit identifier, formatted identically to a MAC address, that uniquely identifies a homogeneous set of one or more IEEE 802.11 Extended Service Sets (ESS). In the context of 3GPP-WLAN interworking, the HESSID is a critical parameter used by the User Equipment (UE) to identify specific WLAN networks that are part of an operator's managed or trusted ecosystem. Technically, it is derived from the MAC address of one of the Access Points (APs) within the ESS or can be a dedicated value configured by the network operator. The HESSID is broadcast within the WLAN's Beacon and Probe Response frames as part of the Interworking element, allowing UEs to detect it during scanning. Within the 3GPP architecture, the HESSID is utilized by the Access Network Discovery and Selection Function (ANDSF), a core network entity that provides the UE with discovery information and inter-system mobility policies (ISMP). An ANDSF policy can instruct the UE to connect to a WLAN with a specific HESSID when it is available, enabling seamless traffic steering or offloading from the 3GPP radio access network. The UE's 3GPP-WLAN interworking stack uses the HESSID to match scanned networks against the policies received from ANDSF. Furthermore, in scenarios involving evolved Packet Data Gateway (ePDG) for untrusted non-3GPP access, the HESSID can be used to determine whether a discovered WLAN should be treated as a trusted or untrusted access network, influencing the authentication and IPsec tunnel establishment procedure. The identifier plays a key role in network selection algorithms, ensuring the UE prioritizes operator-designated hotspots for a consistent and secure service experience.

Purpose & Motivation

The HESSID was introduced to solve the problem of intelligently and securely steering user traffic between 3GPP cellular networks and WLANs. Before its standardization, UEs could connect to any available WLAN, but operators had no standardized way to identify their own managed or partner Wi-Fi networks to promote seamless offloading. This led to suboptimal user experiences, potential security risks from connecting to untrusted hotspots, and inefficient use of network resources. The HESSID, specified from 3GPP Release 11 onwards, provides a standardized, globally unique identifier that allows an operator to tag its WLAN infrastructure. This enables the creation of sophisticated network selection policies. The primary problem it solves is enabling policy-based traffic steering, a cornerstone of 3GPP-WLAN interworking. It allows operators to relieve congestion on their cellular networks by offloading data traffic to trusted, high-quality Wi-Fi networks, while maintaining control over the user's service experience and security context. Historically, earlier interworking attempts relied on less specific identifiers like SSID, which are not guaranteed to be unique and can be easily spoofed. The HESSID's uniqueness and its integration into ANDSF policies provided a more reliable and secure mechanism. Its creation was motivated by the explosion of Wi-Fi availability and the need for tighter integration between cellular and Wi-Fi as part of the Heterogeneous Network (HetNet) strategy, ultimately paving the way for seamless mobility and aggregation technologies like LTE-WLAN Aggregation (LWA).

Key Features

• 48-bit unique identifier formatted as an IEEE MAC address for a homogeneous set of WLAN ESSs
• Broadcast in IEEE 802.11 Beacon and Probe Response frames for UE discovery
• Key parameter in 3GPP ANDSF policies for intelligent network selection and traffic steering
• Used to distinguish between trusted and untrusted WLAN access for security and authentication procedures
• Enables operator control over Wi-Fi offloading to managed or partner networks
• Supports seamless mobility and service continuity between 3GPP and WLAN access

Evolution Across Releases

Defining Specifications