Abstract
Recently, cellular networks face a huge challenge to satisfy large increment of user demands for higher-speed and lower-latency communication service. One promising solution is to apply the cache technology in edge cache networks to reduce redundant data transmission. The cache technology is effective, but the cache capacity is limited. Researchers have proposed various cache strategies to efficiently utilize the limited cache capacity. However, most existing solutions have not taken into account the service capacity limitation of mobile devices. In this paper, we propose a cache replacement strategy for heterogeneous networks considering the limitation of service capacity and user mobility. In the cache replacement strategy, we utilize the user characteristics, such as user mobility and file popularity, to estimate the user demands, and then define the system cost. We formulate the cache strategy design as a mixed integer linear programming problem to minimize the system cost, and use Lagrangian relaxation and hierarchical primal-dual decomposition method to solve this problem. Numerical results show that the proposed cache strategy can significantly reduce the system cost and increase the cache hit ratio compared to the cache strategy that does not consider the limitation of user service capacity.
Highlights
With the rapid spread of smartphones and portable devices, the data traffic generated by mobile applications is growing explosively
We find that this gap can be compensated by cooperation among users and small base stations (SBSs) when the service capacity limitation is considered
In these simulations, referring to the simulation settings in [2], we consider a single cell with 1 macro base stations (MBSs), 8 SBSs and 60 users
Summary
With the rapid spread of smartphones and portable devices, the data traffic generated by mobile applications (e.g., multimedia file sharing and video streaming) is growing explosively. This causes the backhaul link to become a bottleneck and even limit the advantages of the HetNet architecture To accommodate this bottleneck problem, researchers utilize the storage capacity of SBSs and mobile devices to cache popular files locally. It can be seen that the efficiency in practice is worse than the expected value We find that this gap can be compensated by cooperation among users and SBSs when the service capacity limitation is considered. In this paper, we consider designing new cache replacement strategies by considering the service capacity limitation of user devices. We formulate the cache strategy design as a mixed integer linear programming problem to minimize the system cost In this problem, we consider the service capacity limitation of user devices and the user mobility pattern.
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