An O-RAN Framework for AI/ML-Based Localization with OpenAirInterface and FlexRIC

TL;DR

This paper presents an O-RAN framework integrating AI/ML-based localization algorithms, enabling real-time deployment and testing within open radio access network environments, thus advancing AI-native wireless positioning capabilities.

Contribution

The paper introduces a novel O-RAN framework with specific models and an external application for real-time AI/ML localization, bridging the standardization gap in 3GPP and O-RAN.

Findings

Framework enables real-time AI/ML localization in O-RAN

Validation with a real-world testbed demonstrates feasibility

Potential to enhance positioning in next-generation networks

Abstract

Localization is increasingly becoming an integral component of wireless cellular networks. The advent of artificial intelligence (AI) and machine learning (ML) based localization algorithms presents potential for enhancing localization accuracy. Nevertheless, current standardization efforts in the third generation partnership project (3GPP) and the O-RAN Alliance do not support AI/ML-based localization. In order to close this standardization gap, this paper describes an O-RAN framework that enables the integration of AI/ML-based localization algorithms for real-time deployments and testing. Specifically, our framework includes an O-RAN E2 Service Model (E2SM) and the corresponding radio access network (RAN) function, which exposes the Uplink Sounding Reference Signal (UL-SRS) channel estimates from the E2 agent to the Near real-time RAN Intelligent Controller (Near-RT RIC). Moreover, our framework includes, as an example, a real-time localization external application (xApp), which leverages the custom E2SM-SRS in order to execute continuous inference on a trained Channel Charting (CC) model, which is an emerging self-supervised method for radio-based localization. Our framework is implemented with OpenAirInterface (OAI) and FlexRIC, democratizing access to AI-driven positioning research and fostering collaboration. Furthermore, we validate our approach with the CC xApp in real-world conditions using an O-RAN based localization testbed at EURECOM. The results demonstrate the feasibility of our framework in enabling real-time AI/ML localization and show the potential of O-RAN in empowering positioning use cases for next-generation AI-native networks.