The biggest challenge in transitioning from traditional RAN to Open RAN is the integration of Open RAN components. Guess why! absolutely due to RAN itself getting disaggregated into smaller pieces coming from different vendors (multi-interoperability) in different layers (Horizontal and Vertical) from Control, User to Management. Below is the conclusion, I quoted from Tietoevry’s white paper about […]
3GPP defined the functional splits in 38.801 to formalize potential protocol split options. Functional splits are intended to allow functions to run in a central location ( ex. Data Center ) Vs. distributed in the radio heads ( ex Site Location). There are 4 factors to be taken into consideration when choosing the right functional […]
An Open RAN (O-RAN) is a nonproprietary implementation of a RAN that allows interoperability between cellular network equipment provided by different vendors. Mobile Network Operators (MNOs) are virtualizing the RAN to achieve cloud-like agility and economics. As per statistics, The virtualization of the RAN network is expected to grow at a 19% CAGR (compound annual […]
Going from expectations to reality means Open RAN is on the right road to go from reality to expectations. It’ll take some time and needs more cooperation between MNOs and OpenRAN vendors. Open RAN is about choosing the optimal product from a variety of products that meet specifications for each function -> Meaning avoiding Vendor […]
vRAN and OpenRAN are not new generations like 4G, 5G, or even 6G. It’s a new way of implementing of access domain in a new way helping at the end to improve the flexibility, cost, and agility in the RAN domain. Some points should be considered below: Selecting the right vendor that has a good solution that […]
Nokia goes further into this OpenRAN game by opening its fronthaul interface with three 3rd party vendors now. Nokia has already integrated third-party TDD RRH from three suppliers with its Baseband, and the solution is available today. Nokia AirScale Baseband is qualified for commercial Open RAN deployments for both TDD RRH (FR1) and mmWave (FR2) […]
When we’re discussing vRAN and Open RAN topics, we’ll find ourselves facing some questions about the performance and cost. The highly common question is ” Can virtualized RAN deliver the same performance as traditional RAN? ” I see it’s a valid and logical question especially since no one will invest with at least a guaranteed […]
RAN (Radio Access Network) is the main telecommunication network component that is located between the core network and users’ equipment (such as a mobile phone). RAN is constituted of a Radio Unit (RU), which is the antenna visible on top of a cell tower, and a Baseband Unit (BBU), a set of devices linking the […]
3GPP defined a new RAN architectural in Release 15, where the gNB (Site Name for 5G) is logically split into three entities denoted as: CU: Centralized Unit. DU: Distributed Unit. RRU: Remote Radio Unit. The RAN functions that correspond to each of the three entities are determined by the so-called split points. After a thorough […]
The architecture of eNB or gNB with O-DU and O-RUs has some important definitions here: O-DU: O-RAN Distributed Unit: a logical node hosting RLC/MAC/High-PHY layers based on a lower layer functional split. O-RU: O-RAN Radio Unit: a logical node hosting the Low-PHY layer and RF processing based on a lower layer functional split. LLS: Lower […]
What is PTP? Precision Time Protocol (PTP), defined in the IEEE1588-2008 standard, is a protocol that uses a master-slave hierarchy to synchronize clocks on network devices. PTP uses hardware time stamping to achieve submicrosecond synchronization. PTP defines how real-time clocks in a network synchronize with each other. A network where PTP operates is called a […]