In recent years, the radio access network (RAN) domain has witnessed a sea change with increasing levels of virtualization and softwarization driven by emerging paradigms such as the Open RAN (O-RAN) movement. However, the fundamental building block of the cellular network, i.e., the base station, remains unchanged and ill-equipped to handle this architectural evolution. In particular, with reference to existing base station architectures, there exists a general lack of programmability and composability along with a protocol stack that grapples with diverging and often conflicting requirements set forth by 3GPP and O-RAN. Recognizing the need for an "O-RAN-native" approach to base station design, this paper introduces HexRAN- a novel base station architecture characterized by key features relating to RAN disaggregation and composability, 3GPP and O-RAN protocol integration and programmability, robust controller interactions, and customizable RAN slicing. Furthermore, the paper also includes a concrete systems-level prototype and comprehensive experimental evaluation of HexRAN on an over-the-air testbed, showcasing the scalability and performance benefits associated with the proposed architecture.
@article{arxiv.2304.12560,
title = {HexRAN: A Programmable Approach to Open RAN Base Station System Design},
author = {Ahan Kak and Van-Quan Pham and Huu-Trung Thieu and Nakjung Choi},
journal= {arXiv preprint arXiv:2304.12560},
year = {2024}
}