Abstract
This paper presents a joint optimization of caching and multicast beamforming for a content-centric transmission in a fog radio access network (F-RAN). Users requesting the same file are grouped together and served using multicast transmission. Each edge node (EN) has a local cache and can pre-store contents via partition-based caching. To improve cache performance and reduce fronthaul cost, the maximum distance separable (MDS) code is applied to the file coding. We consider the mixed timescale joint optimization. In short-term optimization, our goal is to optimize the beamforming vector to minimize the total network consumption under the quality-of-service (QoS) constraint. Meanwhile, semi-definite relaxation (SDR) and convex-concave procedure (CCP) algorithms are introduced to solve short-term problem. In long-term optimization, based on the channel state information (CSI) and user requests, we formulate an integer programming problem of minimizing the expectation of the total network consumption under the constraint of cache capacity and the parameter of MDS code. Furthermore, the considered long-term problem is decomposed and a heuristic method is proposed by replacing the objective function with the expectation of the file splitting number. After transforming the integer variables, the subproblem is transformed into the difference of convex (DC) programs and effectively solved using the CCP algorithm. Numerical results show that the proposed content-centric transmission can strike a better balance between power consumption and fronthaul consumption than existing schemes.
Highlights
Mobile connectivity has become essential for many network users
SIMULATION RESULTS We consider a hexagonal multicell fog radio access network (F-RAN) network with N = 7 edge node (EN) located at the center of each cell
The long-term problem was formulated as a mixed-integer non-linear programming (MINLP) problem with the objective of minimizing the expectation of the fronthaul cost and transmit power under the constraint of cache capacity and the parameter of maximum distance separable (MDS) code
Summary
Mobile connectivity has become essential for many network users. With the growth of mobile data traffic, the Cloud RAN (C-RAN) and F-RAN have been regarded as promising network architectures for generation wireless communication [2], [3]. The signaling overload and the payload data need to be shared among all the edge nodes (ENs), resulting tremendous burden on fronthaul links [4]. Compared with C-RAN, the multiple ENs in F-RAN are equipped with local cache to store some popular files during the off-peak time and can greatly reduce the fronthaul burden and improve the user- perceived experience [3], [5], [6].
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