Abstract
With the increase of data traffic in the global mobile network, the limitation in resources of data computing close to the edge is becoming an important issue to resolve. This article addresses the cloud radio access network (CRAN) in 5G HetNets architecture and proposes to take benefit of extra computing and storage resources in the edge to enable the offloading of a set of mobile user services from the remote cloud computing servers to an edge cloud computing infrastructure deployed next to remote radio heads (RRHs) to better serve mobile users and improve energy efficiency. However, this architecture poses many challenges. The first one is related to the clustering of the various deployed RRH to better serve end-users. For that, we propose a two-stage RRH clustering mechanism in order to fully exploit the benefits of C-RAN architecture. The second challenge is related to the scheduling of the offloading. Therefore, we propose a cost-based scheduling scheme (CBSS) that aims to minimize the scheduling cost while considering resource availability in the infrastructure, resource requirements from users' applications, services execution deadlines, and load balancing. The proposed solution permits us to make better offloading decisions and to improve the users' experiences. The solution was implemented in a simulator to highlight its performances and compare them with other existing approaches.
Highlights
The evolution toward global mobile networks has been characterized by an exponential traffic growth during the last years
We propose a novel cloud RAN heterogeneous architecture, namely, Edge Cloud-remote radio heads (RRHs) that aims to introduce an edge cloud computing infrastructure close to the Cloud RAN (C-RAN) infrastructure introduced by 5G networks
We propose a novel cloud radio access network (CRAN) architecture in which an Edge Cloud-RRH is introduced into the edge network
Summary
The evolution toward global mobile networks has been characterized by an exponential traffic growth during the last years. We propose a novel cloud RAN heterogeneous architecture, namely, Edge Cloud-RRH that aims to introduce an edge cloud computing infrastructure close to the C-RAN infrastructure introduced by 5G networks In this approach, we propose adding additional computational and storage resources to high RRH infrastructures (macrocells) installed in the edge network close to mobile end-users. We propose adding additional computational and storage resources to high RRH infrastructures (macrocells) installed in the edge network close to mobile end-users With this infrastructure, it will be possible to offload (i.e., move closer) applications/services from the far end cloud computing infrastructure close to install and execute them in the edge cloud computing infrastructure, the Edge Cloud-RRH allowing short distance interaction between the end-users terminals and the applications/services servers.
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