A Comparative Analysis of Deep Reinforcement Learning-based xApps in O-RAN

TL;DR

This paper compares 12 different DRL-based xApps in O-RAN, analyzing how design choices affect network performance and fairness through extensive benchmarking on a large-scale emulator.

Contribution

It provides a comprehensive benchmarking framework for DRL-based xApps in O-RAN, highlighting the impact of reward functions, action spaces, and control hierarchies on performance.

Findings

Certain design choices lead to optimal network performance.

Some xApps cause conflicts and unfair resource allocation.

Hierarchical control strategies improve resource management.

Abstract

The highly heterogeneous ecosystem of Next Generation (NextG) wireless communication systems calls for novel networking paradigms where functionalities and operations can be dynamically and optimally reconfigured in real time to adapt to changing traffic conditions and satisfy stringent and diverse Quality of Service (QoS) demands. Open Radio Access Network (RAN) technologies, and specifically those being standardized by the O-RAN Alliance, make it possible to integrate network intelligence into the once monolithic RAN via intelligent applications, namely, xApps and rApps. These applications enable flexible control of the network resources and functionalities, network management, and orchestration through data-driven control loops. Despite recent work demonstrating the effectiveness of Deep Reinforcement Learning (DRL) in controlling O-RAN systems, how to design these solutions in a way that does not create conflicts and unfair resource allocation policies is still an open challenge. In this paper, we perform a comparative analysis where we dissect the impact of different DRL-based xApp designs on network performance. Specifically, we benchmark 12 different xApps that embed DRL agents trained using different reward functions, with different action spaces and with the ability to hierarchically control different network parameters. We prototype and evaluate these xApps on Colosseum, the world's largest O-RAN-compliant wireless network emulator with hardware-in-the-loop. We share the lessons learned and discuss our experimental results, which demonstrate how certain design choices deliver the highest performance while others might result in a competitive behavior between different classes of traffic with similar objectives.