Litcius/Paper detail

Latency Minimization for Mobile Edge Computing Networks

Changlin Chen, Christopher G. Brinton, Vaneet Aggarwal

2021IEEE Transactions on Mobile Computing66 citationsDOI

Abstract

The proliferation of data-intensive mobile applications is causing latency to become an issue in mobile edge computing (MEC) systems. In this work, we propose a novel methodology that optimizes communication, computation, and caching configurations in MEC to minimize the mean latency experienced by mobile devices. Transmission and computation processes are modeled using M/G/1 queues to account for service rates and warm-up times. Our caching scheme includes time variables for each file at each edge server in determining when to discard files from storage. We theoretically analyze the latency experienced by mobile devices due to communication, computation, and caching, showing how MEC system latency depends on the offloading decisions of mobile devices, bandwidth and CPU resources, and expiration times of files in the storage of edge servers. Our method for solving the latency minimization problem consists of two main components: iNner cOnVex Approximation (NOVA) to deal with non-convexity in the optimization, and an online algorithm for preventing cache storage violations as new tasks arrive and are serviced by the MEC system. Simulation results show that our algorithm outperforms several baselines in minimizing latency, and verify the benefit of including different resource allocation variables in our optimization.

Topics & Concepts

Computer scienceServerMobile edge computingComputation offloadingLatency (audio)Computer networkDistributed computingCacheMobile computingMobile deviceQueueing theoryEdge computingCloud computingOperating systemTelecommunicationsIoT and Edge/Fog ComputingCaching and Content DeliveryAge of Information Optimization