Load-aware dynamic RRH assignment in Cloud Radio Access Networks

Mishra, Debashisha; Amogh, P C; Ramamurthy, Arun; Franklin, A. Antony; Tamma, Bheemarjuna Reddy

doi:10.1109/wcnc.2016.7564824

Cited by 29 publications

(17 citation statements)

References 12 publications

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“…Theorem 5 gives the solution method for solving (20) (and equivalently (13)). The optimality of the method is guaranteed by Theorem 6.…”

Section: B Computing the Optimum For Given Comp Selectionmentioning

confidence: 99%

“…Theorem 5 and Theorem 6 guarantee that for an arbitrary set of UEs S in the network, one can iteratively compute the maximum demand scaling factor α * for S. As a special case, when π j (α) = 1 for all j ∈ J, solving the problem in (20) is to find the eigenvalue µ and the eigenvector 1/α of the equation system f(µ) = (1/α)µ such that H(µ) = 1.…”

Section: B Computing the Optimum For Given Comp Selectionmentioning

confidence: 99%

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User-Centric Performance Optimization With Remote Radio Head Cooperation in C-RAN

You

Yuan

2020

IEEE Trans. Wireless Commun.

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In a cloud radio access network (C-RAN), distributed remote radio heads (RRHs) are coordinated by baseband units (BBUs) in the cloud. The centralization of signal processing provides flexibility for coordinated multi-point transmission (CoMP) of RRHs to cooperatively serve user equipments (UEs). We target enhancing UEs' capacity performance, by jointly optimizing the selection of RRHs for serving UEs, i.e., resource allocation (and CoMP selection). We analyze the computational complexity of the problem. Next, we prove that under fixed CoMP selection, the optimal resource allocation amounts to solving a so-called iterated function. Towards user-centric network optimization, we propose an algorithm for the joint optimization problem, aiming at maximumly scaling up the capacity for any target UE group of interest. The proposed algorithm enables network-level performance evaluation for quality of experience.

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“…Theorem 5 gives the solution method for solving (20) (and equivalently (13)). The optimality of the method is guaranteed by Theorem 6.…”

Section: B Computing the Optimum For Given Comp Selectionmentioning

confidence: 99%

Section: B Computing the Optimum For Given Comp Selectionmentioning

confidence: 99%

User-Centric Performance Optimization With Remote Radio Head Cooperation in C-RAN

You

Yuan

2020

IEEE Trans. Wireless Commun.

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“…The overall end-user QoS is defined as a weighted sum of SIR (signal to interference ratio) and the average number of users assigned to one RRH. In another work [6], authors proposed a lightweight and load aware dynamic RRH assignment (DRA) algorithm. The proposed algorithm reduced the complexity of the clustering procedure and offered quite close BBU resource savings as compared to FFD (First Fit Decreasing).…”

Section: A Rrh Clusteringmentioning

confidence: 99%

Novel Cloud-RRH Architecture With Radio Resource Management and QoS Strategies for 5G HetNets

et al. 2020

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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 paper 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.

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“…Cellular networks exhibit spatial and temporal patterns in the load they experience [15,16]. Daytime load is higher than during the night, when many users are asleep.…”

Section: Base Station Evolution Into C-ranmentioning

confidence: 99%

Latency-Aware Power Management in Software-Defined Radios

Malm

Ruttik

Tirkkonen

2020

Journal of Electrical and Computer Engineering

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Cloud computing provides benefits in terms of equipment consolidation and power savings from higher utilization for virtualizable software. Cellular communication software faces challenges in cloud computing platforms. BSs create a specific load profile that differs from traditional cloud service loads. Cellular communication system implementations have real-time deadlines with fixed, periodic latency requirements. In this paper, we assess the suitability of an unmodified Ubuntu Linux OS running on a commodity server to operate latency-critical software using a 4G LTE BS software-defined radio implementation. Scaling of the CPU clock frequency is shown to be feasible without excessive impact on the platform’s ability to meet the 4 ms processing delay requirement imposed by the LTE standard. Measurements show the relationship between the processor’s operating frequency and the number of missed subframe processing deadlines to be nonlinear. The results obtained also indicate that a high computational capacity does not suffice to ensure satisfactory operation since fronthaul processing overhead can limit achievable performance. Use of offload-capable network interface cards is studied as a potential remedy.

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Load-aware dynamic RRH assignment in Cloud Radio Access Networks

Cited by 29 publications

References 12 publications

User-Centric Performance Optimization With Remote Radio Head Cooperation in C-RAN

User-Centric Performance Optimization With Remote Radio Head Cooperation in C-RAN

Novel Cloud-RRH Architecture With Radio Resource Management and QoS Strategies for 5G HetNets

Latency-Aware Power Management in Software-Defined Radios

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