Javatpoint Logo
Javatpoint Logo

Cloud Radio Access Network (C-RAN)

Cloud radio access Network(C-RAN) is a new architecture that has been developed and implemented in Radio Access Networks to mimic cloud computing. A crucial advantage of C-RAN is the ability to scale networking for large networks and it supports both active and passive radio technologies, whereas it offers virtualization possibilities in real-time.

C-RAN is a fresh development in wireless communications systems that will be using the latest CPRI, Coarse or Dense WDM, along with the millimeter wave (mm-Wave) transmission of signals over long distances. The "C" in C-RAN can mean "centralized" and also may mean "collaborative".

In traditional RAN, base stations are connected to users, which is the aim of the RAN. However, in C-RAN architecture, baseband units (BBUs) are no longer placed locally at every base station; instead, they are transferred to a Central Control & Processing Station, which is known as a BBU hotel.

The BBU hotel that served as a base for the current work is connected to the network by a cable fastened with high-speed optical fiber, so in this case, the distance between cells can be chosen to be as large as possible. This cloud computing environment is based on open hardware and network Interconnection which directly control on fibers and interconnects within the site.

The C-RAN is a fundamental element of the advancement of future wireless systems such as 5G and the IoT. Based on the ease of deployment and implementation and the scalability achieved as a result of the C-RAN advancements, the migration from LTE to 5G networks majorly depends on the following factors. Furthermore, C-RANs form a viable and manageable solution suitable to accommodate many users as they keep on connecting to the network.

Components of C-RAN

C-RAN networks consist of three primary components:

  1. BBU Hotel: This is a site model that provides or processes data as a central hub. It also should be noted that BBUs are designed so that the individual baseband units can be placed one on top of the other in a so-called 'BBU stack.' However, the BBU stack is not required to be interconnected; instead, the resources within the BBU stack can be dynamically allocated in response to the network requirements. Interconnection between these units is bilateral and entails a high-bandwidth, low-latency communication mode. These processes reside in the BBU, encompassing all the physical, MAC, and network layer functions. The BBU also controls and handles all resources and can greatly benefit from the n-LOS scheme implemented that reduces operational and management burdens.
  2. Remote Radio Unit (RRU) Network: Often referred to as radio heads, RRUs are conventional networks that link wireless equipment such as phones or laptops to the access points. The functions of the physical layer are incorporated at the BBU whereas it is at the RRU that MAC layer functions are carried out. This structure also minimizes the traffic load from the RRUs to the BBUs because most of the processing in C-RAN systems is done at the physical layer.
  3. Fronthaul or Transport Network: This is also known as the mobile switching center whereby it works as a connection layer of the BBUs with the RRUs. To do so, it relies on either optical fiber, cellular, or millimeter wave (mmWave) communication. At the physical layer, the RRU handles physical layer functions, while other layers of the network are addressed by the BBU. In general, RRUs have signal processing as their primary load; Their major role is tied to user-related functions.

Virtualization Concept in C-RAN

C-RAN: Contrary to P-SWCNs, virtualization is performed at the BBU pool in C-RAN networks. Here's how it works:

  • BBU pool is a virtual node, which is represented by dotted lines in the diagram, and the line connecting them is are virtual link.
  • The pool is located on one physical VM which implies that it has certain CPU consumptions.
  • RUs are connected to the BBU, which of a task in group and distributes it across different virtual machines.

This technology offers several advantages, including:

  1. Cost Reduction: For instance, with fewer structures to build and fewer maintenance requirements.
  2. Time Efficiency: Also, the time taken to deploy and scale is reduced with this approach.
  3. Scalability: Scalability that can be gained is that one could add or remove BBUs as virtual machines have the advantage of being easily switched on and off compared to physical machines.

The implementation of BBUs in C-RAN introduces flexibility, scalability and improvements on the efficiency, meaning that it become reliable solution for modern requirements of wireless networks.

Advantages of C-RAN

1. Implementation of Advanced Technologies:

  • C-RAN makes the use of new technologies easier; this means that network operators are able to apply newer technologies, thus putting them in a better place, given the ever-increasing competition in the telecommunication industry.

2. Resource Virtualization:

  • By adopting C-RAN approach the resources can be virtualized and this would make it easier to centrally pool the resources and thereby optimize the use of the resources that are available in the network.

3. Edge Service Deployment Facilitation:

  • It will also enable the deployment of services at the network edge and enhance the service delivery of services to end-users through lower latency achieved through C-RAN.

4. Feasible Resource Sharing:

  • Another advantage of implementation of C-RAN is the possible sharing of the resources within it, which enables the flexible and efficient resource allocation compared to the traditional networks.

5. Improved Resource Utilization and Reduced Backbone Server Pressure:

  • C-RAN optimizes resources in the sense that it distributes the processing load on available resources, thereby offloading the dense backbone servers, hence improving network capacity.

6. Enhanced User Satisfaction:

It is evident that C-RAN has better overall service quality and user experience due to the utilization of more resources and improved network density.

7. Enhanced Scalability:

  • Since C-RAN allows for the creation of generic centrally-located radio equipment and distributed remote radio equipment, the number of radio connections it supports can be expanded merely by providing more space as needs grow in order to accommodate the increase in connections.

8. Improved Energy Efficiency:

  • It is observed that integrating the processing resources in C-RAN leads to low power consumption and energy expenditure. The RRHs can be integrated in a such way that they consume less power as compared to the base stations while the CPUs of a centralized architecture can be further energy efficient.

9. Lower Latency:

  • C-RAN becomes a foundation to apply extensive network optimization to achieve lowered latency and enhance the QoS for the applications, for instance, video streaming and online gaming.

10. Simplified Network Management:

  • C-RAN enables a blueprint whereby the control of hardware equipment is centralized allowing for ease in controlling, deploying and managing networks hence leading to reduced costs and high efficiency.

Disadvantages of C-RAN

1. High Bandwidth Requirements:

  • Concerns associated with C-RAN include the need for very high bandwidth to accommodate the real-time exchange of data between the CPU and RRHs; this might greatly compromise the system's performance by increasing the latency.

2. High Hardware and Maintenance Costs:

  • The massive central baseband processing unit (BBU) in C-RAN entails the purchase of large numbers of high-end processors, storage devices, and other related equipment, which come with large property and maintenance costs.

3. Single Point of Failure:

  • This concept of C-RAN has a single point of failure problem at the central processing unit (CPU). It can also lead to total failure and has severe consequences for the organization's network, resulting in downtimes and service disruptions.

4. Security Concerns:

  • C-RAN structure puts the network at high risk when it comes to cyber attackers due to centralized hardware. Says Baker IPC communications may be compromised through the weakest link in the central processing unit (CPU), which is a massive security threat.

5. Limited Coverage Area:

  • C-RAN is suitable when the traffic density is very high, such as in the city center and areas with high traffic turnover, although it may not be suitable for areas with low traffic turnups or non-urban areas since the number of radio heads is scarce.

6. Interference Issues:

  • In C-RAN, installation of a number of RRHs in the same location may cause interference issues as it hampers the signal visibility leading to poor performance of the system. This is one of the interference problems that should be monitored to prevent it from degrading the quality of the network.

Conclusion

To sum up, there are several benefits associated with C-RAN implementation like enabling advanced technology implementation, better usage of resources, and ease in managing the architecture of the network; however, there are challenges are there also. It means that it is relatively complicated due to high bandwidth requirements, higher costs of the hardware strain and security challenges. Also the problem of overpopulation in specific areas also raises concerns about a single point of failure and interference. However, C-RAN continues to be a suitable option for the management of escalating necessities of wireless networks since it incorporates attributes including scalability, energy efficiency, and better enrolment while, at the same time, calling for proper administration to overcome its drawbacks.







Youtube For Videos Join Our Youtube Channel: Join Now

Feedback


Help Others, Please Share

facebook twitter pinterest

Learn Latest Tutorials


Preparation


Trending Technologies


B.Tech / MCA




news
news
news
news
news
news
news
news
news
news
news
news
news
news
news
news
news
news
news
news
news
news
news
news
news
news
news
news
news
news
news
news
news
news
news
news
news
news
news
news
news
news
news
news
news
news
news
news
news
news
news
news
news
news
news
news
news
news
news
news
news
news
news
news
news
news
news
news
news
news
news
news
news
news
news
news
news
news
news
news
news
news
news
news
news
news
news
news
news
news
news
news
news
news
news
news
news
news
news
news
news
news
news
news
news
news
news
news
news
news
news
news
news
news
news
news
news
news
news
news
news
news
news
news
news
news
news
news
news
news
news
news
news
news
news
news
news
news
news
news
news
news
news
news
news
news
news
news
news
news
news
news
news
news
news
news
news
news
news
news
news
news
news
news
news
news
news
news
news
news
news
news
news
news
news
news
news
news
news
news
news
news
news
news
news
news
news
news
news
news
news
news
news
news
news
news
news
news
news
news
news
news
news
news
news
news
news
news
news
news
news
news
news
news
news
news
news
news
news
news
news
news
news
news
news
news
news
news
news
news
news
news
news
news
news
news
news
news
news
news
news
news
news
news
news
news
news
news
news
news
news
news
news
news
news
news
news
news
news
news
news
news
news
news
news
news
news
news
news
news
news
news
news
news
news
news
news
news
news
news
news
news
news
news
news
news
news
news
news
news
news
news
news
news
news
news
news
news
news
news
news
news
news
news
news
news
news
news
news
news
news
news
news
news
news
news
news
news
news
news
news
news
news
news
news
news
news