Altiostar tests O-RAN Alliance-compliant 5G with NEC and Rakuten
TEWKSBURY, Mass. – Altiostar today announced testing of the industry's first O-RAN Alliance-compliant multi-vendor massive-multi-input, multi-output (mMIMO) 5G with vRAN in collaboration with NEC Corporation and Rakuten Mobile. Interoperability based on open specifications from the O-RAN alliance opens the door for operators to leverage a diverse ecosystem and ensures modularity while deploying their networks.
Altiostar is integrating the O-RAN distributed unit (O-DU) functionality of its virtual radio access network (vRAN) software with NEC's O-RAN Radio Unit (O-RU) using fully compliant control, user, synchronization and management (C/U/S/M) plane protocols based on O-RAN Alliance guidelines. The 5G layer is built using container network functions (CNF) that leverage Rakuten Mobile's cloud infrastructure platform that is part of its 4G network build out.
As part of management-plane integration, Altiostar is following a hierarchical model that allows the O-DU software to manage the NEC O-RU, including providing software upgrades, RU configuration, fault management and performance monitoring. This interoperability is being performed for 5G new radio (NR) sub-6 GHz massive MIMO O-RU and meets all the 3GPP downlink/uplink (DL/UL) requirements.
Altiostar has pioneered RAN disaggregation since 2013 when it first introduced a split between the higher non-real-time layers of the protocol stack and the lower layers of the stack. The industry then standardized this concept in the 3GPP and what is now known as the option-2 split between the centralized unit (CU) and the distributed unit (DU). This paved the way for operators to think differently when it comes to disaggregation and network deployment.
Further disaggregation was introduced by Altiostar in the form of a radio interface unit (RIU). The RIU incorporates lower L1 functionality and provides a gateway function that converts Common Public Radio Interface (CPRI) to/from Ethernet. By eliminating the high bandwidth and proprietary CPRI interface to the radio, Altiostar took a quintessential step towards integrating legacy remote radio head (RRH) over an Ethernet transport network to O-DU functionality.
Using this technology, the first multi-vendor RAN was deployed at a commercial scale and paved the way for operators to engage radio vendors to build O-RAN compliant radios. The bold step taken at Rakuten Mobile has driven the RAN ecosystem to adopt open interfaces offering operators a wide variety of options in building out their network.
Altiostar has been a pioneer in developing O-RAN-compliant containerized 5G Open RAN solutions.
Altiostar's container-based 5G solution splits the baseband into the CU and DUs using micro-services to disaggregate these RAN workloads at a deep level. The DU provided by Altiostar is interoperable with, and uses, O-RAN compliant interfaces to work with third-party O-RUs. These workloads can be deployed flexibly to support different quality of service (QoS) and other requirements of the 5G network slice.
The Altiostar containerized architecture also intrinsically introduces Control and User Plane Separation (CUPS). Thus, containers that support IoT can be sized differently when compared to other workloads, such as enhanced Mobile Broadband (eMBB) applications. Alternatively for ultra-reliable low latency communications (UrLLC) applications like V2x or augmented reality, the operator can dynamically deploy the user plane containers at far-edge locations.
NEC mMIMO O-RU
NEC has designed its 5G Radio Unit (RU) as an active antenna array system (AAS) that consists of an RF front end and a massive-element antenna in order to minimize the system footprint and provide high-efficiency.
NEC's AAS utilizes a fully digitized antenna beam control technology that improves the precision of beam forming. While transmitting beams to the target mobile handsets, it is capable of forming beams that counteract interfering signals using multi-path. It can also form beams that improve communication quality by efficiently combining the multi-path of its own signals with the direct waves.
The features of NEC's AAS enable concurrent communication with several handsets, even though they are close to each other, while maintaining high communication quality. In the trials, NEC proved that use of the AAS can result in improved capacity and quality of communication between a base station and handsets, while confirming that spectral efficiency was reliably maintained at a level roughly eight times higher than that achieved by LTE in indoor environments.