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Assessment of Open Ran: Difference between revisions
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Most telecommunications executives interviewed by Senza Fili believe that Open Ran is the greatest disruptions in the industry. Patrick Lopez, Global VP of Product Management for 5G at NEC said, “If we look at how fast Open RAN has emerged and reached a level of maturity that allows deployments at scale, we may conclude that it is one of the fastest-moving technologies in the telecom market ever.” <ref name=":4">https://senzafili.com/wp-content/uploads/2022/12/SenzaFili_DD_ORAN_Ecosystem.pdf<!-- Page 48 --> page. 48</ref> His views were echoed by others who believe that Open Ran would help them solve vendor-lock ins and other issues that were common in the traditional RAN. However, they also noted that Open Ran comes with its own challenges, which need the cooperation of the whole industry to overcome them. The greatest challenge being integration. Santiago Tenorio, Head of Network Strategy & Architecture at Vodafone once said in a webinar<ref name=":6">https://www.parallelwireless.com/wp-content/uploads/Parallel-Wireless-e-Book-Everything-You-Need-to-Know-about-Open-RAN.pdf<!-- Page 48 --><nowiki/>page.48</ref>, “We haven’t even scratched the surface of system integration challenges.” The good news is that integration is easier in greenfield deployments when compared to brownfield deployments. That is why most deployments have been in rural areas where the operators have to start from scratch. Deloitte estimates that as of December 2020, there were 35 Open Ran deployments in the world<ref name=":2" />. | Most telecommunications executives interviewed by Senza Fili believe that Open Ran is the greatest disruptions in the industry. Patrick Lopez, Global VP of Product Management for 5G at NEC said, “If we look at how fast Open RAN has emerged and reached a level of maturity that allows deployments at scale, we may conclude that it is one of the fastest-moving technologies in the telecom market ever.” <ref name=":4">https://senzafili.com/wp-content/uploads/2022/12/SenzaFili_DD_ORAN_Ecosystem.pdf<!-- Page 48 --> page. 48</ref> His views were echoed by others who believe that Open Ran would help them solve vendor-lock ins and other issues that were common in the traditional RAN. However, they also noted that Open Ran comes with its own challenges, which need the cooperation of the whole industry to overcome them. The greatest challenge being integration. Santiago Tenorio, Head of Network Strategy & Architecture at Vodafone once said in a webinar<ref name=":6">https://www.parallelwireless.com/wp-content/uploads/Parallel-Wireless-e-Book-Everything-You-Need-to-Know-about-Open-RAN.pdf<!-- Page 48 --><nowiki/>page.48</ref>, “We haven’t even scratched the surface of system integration challenges.” The good news is that integration is easier in greenfield deployments when compared to brownfield deployments. That is why most deployments have been in rural areas where the operators have to start from scratch. Deloitte estimates that as of December 2020, there were 35 Open Ran deployments in the world<ref name=":2" />. . Around 85% of the deployments were in developing markets, with the majority being done in rural areas. But what exactly is Open Ran? Can it replace the traditional RAN? Does it reduce costs as argued by most experts? Let’s have a look! | ||
[[File:Open RAN IMAGE.png|thumb|https://www.ifri.org/sites/default/files/atoms/files/velliet_open_ran_2022_us.pdf]] | == What’s Open RAN? == | ||
[[File:Traditional Ran image.png|thumb|297x297px|https://www.ifri.org/sites/default/files/atoms/files/velliet_open_ran_2022_us.pdf<nowiki/>page.8]] | |||
Radio Access Network (RAN) is a telecommunications network component that links your mobile phone or laptop to the core network.It comprises radio units (RUs), antenna and baseband units (BBUs) in the case of a 4G network. The BBU consists of centralized units (CUs) and distributed units (DUs). The RUs are responsible for sending and receiving data, whereas the BBUs process that data. In a traditional RAN architecture, the interface between the BBU and the RU is closed while all other interfaces are open. The Open RAN architecture aims to solve this, as shown by the figures on the right.[[File:Open RAN IMAGE.png|thumb|https://www.ifri.org/sites/default/files/atoms/files/velliet_open_ran_2022_us.pdf]] | |||
As shown in figure 2, the Open Ran architecture disaggregates the BBU into DU and CU using the 3rd Generation Partnership Project (3GPP) standards and creates open interfaces between them. The open interfaces enable the operator to incorporate many vendors into its network, as we will discuss further in this report. However, it should be noted that this is not the only work of the Open Ran architecture. With Open Ran deployment, the operator benefits from its many other features. | As shown in figure 2, the Open Ran architecture disaggregates the BBU into DU and CU using the 3rd Generation Partnership Project (3GPP) standards and creates open interfaces between them. The open interfaces enable the operator to incorporate many vendors into its network, as we will discuss further in this report. However, it should be noted that this is not the only work of the Open Ran architecture. With Open Ran deployment, the operator benefits from its many other features. | ||
== Overview == | == Overview == | ||
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===3. Increases diversity=== | ===3. Increases diversity=== | ||
===This made the closed network solution supplied by these vendors expensive. However, Open Ran will create diversity as Dr. Femi Adeyemi, Head of Wireless at Fujitsu Network Communications<ref name=":0" />, said, “The entrance barriers are low, and many new players can enter the environment. But the exit barriers are also low. A wide ecosystem forces vendors to be competitive.” Competition among the different vendors will necessitate innovation in an effort to stay relevant in the market. His words were echoed by Peter Claydon, President of Picocom<ref name=":0" />, who said, “Open RAN can democratize the ecosystem by lowering the barriers to entry and allowing more players to enter the market.” With more players, supply of hardware and software solutions will increase, resulting in lower prices.=== | |||
===4. Enables automation=== | ===4. Enables automation=== | ||
Open Ran introduces complexity that did not exist in traditional Ran<ref name=":2">https://www2.deloitte.com/content/dam/Deloitte/pt/Documents/technology-media-telecommunications/TEE/The-Open-Future-of-Radio-Access-Networks.pdf</ref>. This will encourage the operator to deploy various automation features such as Ran Intelligent Controller (RIC), which manages the APIs deployed in the network. RIC leverages analytics and AI/ML, hence resolving issues within the shortest time possible. | Open Ran introduces complexity that did not exist in traditional Ran<ref name=":2">https://www2.deloitte.com/content/dam/Deloitte/pt/Documents/technology-media-telecommunications/TEE/The-Open-Future-of-Radio-Access-Networks.pdf</ref>. This will encourage the operator to deploy various automation features such as Ran Intelligent Controller (RIC), which manages the APIs deployed in the network. RIC leverages analytics and AI/ML, hence resolving issues within the shortest time possible. | ||