Abstract
In recent years, multi-access edge computing (MEC) has become a promising technology used in 5G networks based on its ability to offload computational tasks from mobile devices (MDs) to edge servers in order to address MD-specific limitations. Despite considerable research on computation offloading in 5G networks, this activity in multi-tier multi-MEC server systems continues to attract attention. Here, we investigated a two-tier computation-offloading strategy for multi-user multi-MEC servers in heterogeneous networks. For this scenario, we formulated a joint resource-allocation and computation-offloading decision strategy to minimize the total computing overhead of MDs, including completion time and energy consumption. The optimization problem was formulated as a mixed-integer nonlinear program problem of NP-hard complexity. Under complex optimization and various application constraints, we divided the original problem into two subproblems: decisions of resource allocation and computation offloading. We developed an efficient, low-complexity algorithm using particle swarm optimization capable of high-quality solutions and guaranteed convergence, with a high-level heuristic (i.e., meta-heuristic) that performed well at solving a challenging optimization problem. Simulation results indicated that the proposed algorithm significantly reduced the total computing overhead of MDs relative to several baseline methods while guaranteeing to converge to stable solutions.
Highlights
With the tremendous growth of the Internet of Things (IoTs), massive amounts of mobile devices (MDs), such as smart devices and virtual reality (VR) glasses, connect to networks and generate large amounts of data on communications networks
Recent studies have focused on computation offloading in 5G networks [5], with other research focusing on single-tier multi-access edge computing (MEC) servers used in heterogeneous scenarios [9,10,11,12,13,14,15,16]; achieving effective offloading decisions related to computation-completion time and energy consumption in a multi-tier MEC server remains an optimization problem that attracts considerable attention [17,18,19,20]
We considered multi-access edge computing in 5G heterogeneous networks (HetNets) comprising a set of small cell base stations (SBSs) connected to one macro-base stations (MBSs) (Figure 1)
Summary
With the tremendous growth of the Internet of Things (IoTs), massive amounts of mobile devices (MDs), such as smart devices and virtual reality (VR) glasses, connect to networks and generate large amounts of data on communications networks. Recent studies have focused on computation offloading in 5G networks [5], with other research focusing on single-tier MEC servers used in heterogeneous scenarios [9,10,11,12,13,14,15,16]; achieving effective offloading decisions related to computation-completion time and energy consumption in a multi-tier MEC server remains an optimization problem that attracts considerable attention [17,18,19,20]. We addressed joint resource allocation and computation-offloading decisions in order to minimize the total computing overhead of MDs, including completion time and energy consumption.
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