Energy-Aware Offloading in Time-Sensitive Networks with Mobile Edge Computing

Mobile Edge Computing (MEC) enables rich services in close proximity to the end users to provide high quality of experience (QoE) and contributes to energy conservation compared with local computing, but results in increased communication latency. In this paper, we investigate how to jointly optimize task offloading and resource allocation to minimize the energy consumption in an orthogonal frequency division multiple access-based MEC networks, where the time-sensitive tasks can be processed at both local users and MEC server via partial offloading. Since the optimization variables of the problem are strongly coupled, we first decompose the orignal problem into three subproblems named as offloading selection (PO ), transmission power optimization (PT ), and subcarriers and computing resource allocation (PS ), and then propose an iterative algorithm to deal with them in a sequence. To be specific, we derive the closed-form solution for PO , employ the equivalent parametric convex programming to cope with the objective function which is in the form of sum of ratios in PT , and deal with PS by an alternating way in the dual domain due to its NP-hardness. Simulation results demonstrate that the proposed algorithm outperforms the existing schemes.

[1]  Peter Richtárik,et al.  Iteration complexity of randomized block-coordinate descent methods for minimizing a composite function , 2011, Mathematical Programming.

[2]  Laizhong Cui,et al.  Joint Optimization of Energy Consumption and Latency in Mobile Edge Computing for Internet of Things , 2019, IEEE Internet of Things Journal.

[3]  Branka Vucetic,et al.  Cross-Layer Design for Mission-Critical IoT in Mobile Edge Computing Systems , 2019, IEEE Internet of Things Journal.

[4]  An Liu,et al.  Energy-Efficient Joint Offloading and Wireless Resource Allocation Strategy in Multi-MEC Server Systems , 2018, 2018 IEEE International Conference on Communications (ICC).

[5]  Min Sheng,et al.  Mobile-Edge Computing: Partial Computation Offloading Using Dynamic Voltage Scaling , 2016, IEEE Transactions on Communications.

[6]  Tony Q. S. Quek,et al.  Exploiting Trust Degree for Multiple-Antenna User Cooperation , 2017, IEEE Transactions on Wireless Communications.

[7]  Zhangdui Zhong,et al.  Joint Job Partitioning and Collaborative Computation Offloading for Internet of Things , 2019, IEEE Internet of Things Journal.

[8]  Jie Gao,et al.  Partial Offloading Scheduling and Power Allocation for Mobile Edge Computing Systems , 2019, IEEE Internet of Things Journal.

[9]  Kai-Kit Wong,et al.  Wireless Powered Cooperation-Assisted Mobile Edge Computing , 2018, IEEE Transactions on Wireless Communications.

[10]  Geoffrey Ye Li,et al.  Collaborative Cloud and Edge Computing for Latency Minimization , 2019, IEEE Transactions on Vehicular Technology.

[11]  Mengyuan Li,et al.  Joint subcarrier and power allocation for OFDMA based mobile edge computing system , 2017, 2017 IEEE 28th Annual International Symposium on Personal, Indoor, and Mobile Radio Communications (PIMRC).

[12]  John M. Cioffi,et al.  Optimal Resource Allocation for OFDMA Downlink Systems , 2006, 2006 IEEE International Symposium on Information Theory.

[13]  Hongbo Zhu,et al.  Energy Efficiency Based Joint Computation Offloading and Resource Allocation in Multi-Access MEC Systems , 2019, IEEE Access.

[14]  Haiyun Luo,et al.  Energy-Optimal Mobile Cloud Computing under Stochastic Wireless Channel , 2013, IEEE Transactions on Wireless Communications.

[15]  Fuhui Zhou,et al.  Computation Efficiency Maximization in OFDMA-Based Mobile Edge Computing Networks , 2019, IEEE Communications Letters.

[16]  Kaibin Huang,et al.  Energy-Efficient Resource Allocation for Mobile-Edge Computation Offloading , 2016, IEEE Transactions on Wireless Communications.

[17]  Nader Mokari,et al.  Task Scheduling Based on Priority and Resource Allocation in Multi-User Multi-Task Mobile Edge Computing System , 2019, 2019 IEEE 30th Annual International Symposium on Personal, Indoor and Mobile Radio Communications (PIMRC).

[18]  Sheyda Zarandi,et al.  Joint Resource Allocation and Offloading Decision in Mobile Edge Computing , 2019, IEEE Communications Letters.

[19]  Li Zhou,et al.  Energy-Latency Tradeoff for Energy-Aware Offloading in Mobile Edge Computing Networks , 2018, IEEE Internet of Things Journal.

[20]  Yunlong Cai,et al.  Latency Optimization for Resource Allocation in Mobile-Edge Computation Offloading , 2017, IEEE Transactions on Wireless Communications.

[21]  David Tse,et al.  Fundamentals of Wireless Communication , 2005 .

[22]  Jia Tang,et al.  Cross-layer resource allocation over wireless relay networks for quality of service provisioning , 2007, IEEE Journal on Selected Areas in Communications.

[23]  Ying Jun Zhang,et al.  Computation Rate Maximization for Wireless Powered Mobile-Edge Computing With Binary Computation Offloading , 2017, IEEE Transactions on Wireless Communications.

[24]  Min Chen,et al.  An Optimal Pricing Scheme for the Energy-Efficient Mobile Edge Computation Offloading With OFDMA , 2018, IEEE Communications Letters.

[25]  Ying Chen,et al.  Energy Efficient Dynamic Offloading in Mobile Edge Computing for Internet of Things , 2019, IEEE Transactions on Cloud Computing.

[26]  H. Vincent Poor,et al.  Dynamic Task Offloading and Resource Allocation for Ultra-Reliable Low-Latency Edge Computing , 2018, IEEE Transactions on Communications.

[27]  Shun-Ren Yang,et al.  Multi-Access Edge Computing Enhanced Video Streaming: Proof-of-Concept Implementation and Prediction/QoE Models , 2019, IEEE Transactions on Vehicular Technology.

[28]  Weiwei Xia,et al.  Joint Offloading and Resource Allocation Optimization for Mobile Edge Computing , 2017, GLOBECOM 2017 - 2017 IEEE Global Communications Conference.

[29]  Udayagiri Mounisha,et al.  A Survey on Low Latency towards 5G: RAN, Core Network and Caching Solutions , 2019 .

[30]  Rose Qingyang Hu,et al.  Computation Rate Maximization in UAV-Enabled Wireless-Powered Mobile-Edge Computing Systems , 2018, IEEE Journal on Selected Areas in Communications.

[31]  Wei Yu,et al.  Dual methods for nonconvex spectrum optimization of multicarrier systems , 2006, IEEE Transactions on Communications.

[32]  Yun-Chol Jong,et al.  An Efficient Global Optimization Algorithm for Nonlinear Sum-of-Ratios Problem ∗ † , 2012 .

[33]  Tarik Taleb,et al.  Survey on Multi-Access Edge Computing for Internet of Things Realization , 2018, IEEE Communications Surveys & Tutorials.

[34]  Yan Zhang,et al.  Joint Computation Offloading and User Association in Multi-Task Mobile Edge Computing , 2018, IEEE Transactions on Vehicular Technology.

[35]  Shi Jin,et al.  Joint Uplink/Downlink Sub-Channel, Bit and Time Allocation for Multi-Access Edge Computing , 2019, IEEE Communications Letters.