Description
SL-MT-LR (Sidelink Mobile Terminating Location Request) is a location service within 3GPP standards that permits an external entity, such as a location server or another UE, to request the geographical position of a target UE using sidelink communication. Unlike SL-MO-LR where the UE initiates the request, here the target UE receives the request terminated from an external source over the PC5 interface. This service is crucial for scenarios where a third party needs to ascertain the location of a device, such as in public safety operations, vehicle tracking, or network-assisted positioning. The procedures are detailed in specifications 23.273 for architectural aspects, 24.514 for protocol layers, and 38.355 for radio access network integration, ensuring a standardized approach across different network deployments.
The architecture for SL-MT-LR involves several key components: the requesting entity, which could be a UE or a network-based location server; the target UE, which is the device whose location is being sought; and the PC5 interface, which facilitates the direct sidelink communication. The requesting entity sends a location request message via the PC5 interface, containing parameters like target UE identification, required accuracy, and positioning method. Upon receipt, the target UE processes the request, which may involve activating its positioning modules, measuring signals such as SL-PRS from neighboring devices, or coordinating with other UEs for collaborative positioning. The target UE then computes or assists in computing its location, often using techniques like time-of-arrival or angle-of-arrival measurements, and returns the result to the requesting entity over the same sidelink channel.
SL-MT-LR operates through a series of signaling exchanges defined in the relevant 3GPP specs. Initially, the requesting entity formulates a location request message based on the application needs—for instance, in a V2X scenario, a roadside unit might request the location of nearby vehicles for traffic management. This message is transmitted over the SL-SCH (Sidelink Shared Channel) using the PC5 interface. The target UE, upon decoding the request, engages in measurement procedures, potentially involving reference signal exchanges with other UEs or infrastructure. If the target UE lacks sufficient capability, it may relay the request to a location server or use hybrid methods combining sidelink and cellular measurements. The computed location data is then encapsulated in a response message and sent back via PC5. This service is designed to be efficient, with mechanisms for privacy and security, such as authentication of requesting entities, to prevent unauthorized tracking. Its role in the network extends beyond mere positioning; it enables dynamic resource allocation and enhanced situational awareness in sidelink ecosystems, supporting everything from logistics to disaster recovery.
Purpose & Motivation
SL-MT-LR was developed to address the need for external entities to locate UEs in sidelink environments, where traditional network-based terminating location services are not feasible. In applications like V2X and ProSe, there is often a requirement for one device or system to determine the position of another—for example, emergency services locating a vehicle after a crash or a fleet manager tracking assets in remote areas. Previous methods relied on cellular network involvement, which could fail in coverage gaps or congested scenarios. SL-MT-LR enables direct, device-to-device location requests, improving reliability and reducing latency for critical operations.
Historically, Mobile Terminating Location Request (MT-LR) services in 3GPP were confined to core network interactions, requiring base station and core network elements to mediate requests. With the rise of sidelink communication in releases like Rel-16 for NR, this approach proved inadequate for direct communication use cases. SL-MT-LR emerged as a solution, extending terminating location capabilities to the PC5 interface. This was motivated by automotive and public safety sectors demanding robust positioning for collaborative awareness, such as in platooning or search-and-rescue missions, where devices must share location data without network overhead.
The creation of SL-MT-LR also supports regulatory compliance and commercial applications, enabling services like lawful interception or location-based advertising in sidelink contexts. By standardizing it in 3GPP, interoperability is ensured across diverse devices and networks, addressing the fragmentation seen in proprietary solutions. This evolution reflects a broader trend towards decentralized network functions, empowering devices to perform complex tasks independently while maintaining seamless integration with existing cellular infrastructure.
Classification
Detected Changes Across Releases
from 3GPP Change RequestsSpecific changes extracted from the „Change history“ tables of 3GPP specifications (98 CRs across 4 releases). Complements the general historical overview above with the evidence-based evolution of this function.
In Release 16, the SL-MT-LR function was newly introduced to enable Sidelink Positioning, allowing a location request to be terminated at a target UE using sidelink communication. This addition is part of the broader support for Ranging based services and Sidelink Positioning as defined in the architecture. The function integrates with the existing MT-LR (Mobile Terminated Location Request) procedures for commercial and regulatory location services.
- Support of Concurrent Location Request TS 23.273CR0006
- Correction and Improvement of Low Power Periodic and Triggered Location TS 23.273CR0011
- Handling of NG-RAN Location Service Exposure Procedure TS 23.273CR0021
- Clarification of 5GC-MT-LR procedure for the commercial location service TS 23.273CR0024
- Completion of Unified Location Service Exposure Procedure for TS 23.273 TS 23.273CR0028
- IMS Interworking for location service TS 23.273CR0032
+ 21 more changes
In Release 17, the SL-MT-LR function was enhanced to support deferred location requests with new capabilities, including the addition of a Scheduled Location Time for periodic reporting and the ability to provide a location estimate in Local Coordinates. The release also introduced support for Location Services within Standalone Non-Public Networks (SNPNs) and added the ability to request an indication of reliable UE location information. Furthermore, procedures were clarified for requesting the current location from the AMF and for handling deferred MT-LR with periodic triggers.
- Introduction of the Scheduled Location Time TS 23.273CR0187
- Addition of a Scheduled Location Time TS 23.273CR0151
- Periodic and Triggered 5GC-MT-LR Procedure in RRC INACTIVE state TS 23.273CR0228
- Location estimate in Local Coordinates TS 23.273CR0144
- Clarification on requesting current location from AMF. TS 23.273CR0146
- Support for Multiple QoS Class in deferred location requests TS 23.273CR0150
+ 10 more changes
In Release 18, the SL-MT-LR function was newly introduced to support Mobile Terminating Location Requests for Sidelink Positioning and Ranging based services. This enables an external LCS Client or AF to request the location of a target UE using sidelink positioning procedures integrated into the LCS architecture. The release also specified a corresponding privacy check procedure for Sidelink positioning within the MT-LR process.
- Multiple location report for MT-LR Immediate Location Request for the regulatory service TS 23.273CR0237
- Support of Mobile Base Station Relay for Location Service TS 23.273CR0240
- UE location reporting only when the UE locates in the target area defined with finer granularity TS 23.273CR0242
- Privacy Check for NWDAF requesting UE location from GMLC TS 23.273CR0249
- Verification of location for NTN access TS 23.273CR0258
- Support of a UE user plane connection to an LCS Client or AF for periodic or triggered 5GC-MT-LR event reporting TS 23.273CR0264
+ 38 more changes
In Release 19, the SL-MT-LR function was updated to support deferred and periodic location events over the sidelink, including corrections and clarifications to the procedure when involving a Mobile gNB with Wireless Access Backhauling (MWAB). The enhancements also included updates for handling multiple location reports and clarifications on the Sidelink Positioning Protocol (SLPP) transport initiation. These changes refined the sidelink positioning service request procedure to improve reliability and functionality for periodic and triggered location events.
- Adding Deferred 5GC-MT-LR Procedure for Periodic Location Events based NRPPa Periodic Measurement Reports TS 23.273CR0589
- Multiple Location Report for Next Generation Emergency Routing TS 23.273CR0608
- Clarification on LMF requesting ML model for LMF-based AI/ML Positioning from the NWDAF containing MTLF TS 23.273CR0657
- Clarification of location services when a UE is served by a MWAB-gNB TS 23.273CR0670
- Correction of the 5GC-MT-LR procedure involving MWAB TS 23.273CR0730
- Corrections on located UE in sidelink positioning service request procedure TS 24.514CR0035
+ 5 more changes
Explore further
Broader topics and technologies where SL-MT-LR plays a role.
Defining Specifications
3GPP specifications that define or reference SL-MT-LR, with the latest known release. Sourced from the 3GPP document catalog — see methodology.
| Specification | Title | Release |
|---|---|---|
| TS 23.273 vj50 | 5G Location Services Stage 2 Architecture | Rel-19 |
| TS 24.514 vj30 | Ranging & Sidelink Positioning in 5GS | Rel-19 |
| TS 38.355 vj00 | Sidelink Positioning Protocol (SLPP) | Rel-19 |