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Network slicing, high-bandwidth, low-latency applications, prioritized communications, and other 5G network functions are all managed by the RIC.
The Open RAN architecture relies heavily on the RAN Intelligent Controller (RIC). A Distributed Unit (DU) software function, a multi-RAT CU protocol stack, a near-real-time RIC, and an orchestration/NMS layer with a Non-real-time RIC are all components of the RIC architecture.
In cloud computing, Virtual Network Functions (VNFs) or containers are used to implement the RIC’s functionality. For maximum RAN optimization and efficiency, these software functions interact with RU hardware.
In 3GPP’s Release 15, the RIC’s features and functionality, as well as RAN disaggregation in general, are outlined. The Open RAN specification’s various components are the focus of several technical workgroups run by the O-RAN Alliance. O-RAN Workgroups 2 and 3 are in charge of the RIC specification guidance. The Non-real-time RAN Intelligent Controller and A1 Interface Workgroup is one of these, while the Near-real-time RIC and E2 Interface Workgroup is another.
The Global RAN intelligent controller market accounted for $XX Billion in 2023 and is anticipated to reach $XX Billion by 2030, registering a CAGR of XX% from 2024 to 2030.
The Open RAN Intelligent Controller (RIC) was developed by Avenair with deep knowledge of the Radio Access Network (RAN) domain, Artificial Intelligence and Machine Learning (AI/ML), and cloud-native, software-defined networking in mind in order to assist mobile operators in making the most efficient use of network resources.
This RIC is a new function that controls the RAN’s decisions regarding Radio Resource Management (RRM), and its design is based on O-RAN standards. The RIC enables the migration of RRM functions from traditional vendor-proprietary hardware and the deployment of extensible applications alongside platform functions to provide operators with measurable business results.
By providing a framework that automates RAN operational workflows and optimizes end-to-end network performance, the Mavers RIC adds strategic value and differentiates the operator network.
Radio Access Networks (Open Networks) With the world’s first fully containerized, virtualized Open RAN Split 7.2 architecture, Maverik’s award-winning Open v RAN solution provides radio access networks with increased business agility, network elasticity, and flexibility.
Open interfaces, virtualization, and web-scale containerization can be used to support a variety of deployment scenarios, including Public Cloud and Private Cloud, resulting in a 37% reduction in total cost of ownership over five years.
AI/Machine Learning (Intelligence) CSPs can make the most of the network by combining sophisticated AI and ML algorithms with deep expertise in the telecom industry.
Numerous RAN control use cases are made possible by the RIC by utilizing a variety of machine learning models like anomaly detection, time series prediction, clustering, and Bayesian optimization.
