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Cluster Computing

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02-11-2021

Offloading strategy with PSO for mobile edge computing based on cache mechanism

Authors: Wenqi Zhou, Lunyuan Chen, Shunpu Tang, Lijia Lai, Junjuan Xia, Fasheng Zhou, Liseng Fan

Published in: Cluster Computing | Issue 4/2022

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Abstract

With the development of Internet of Things (IoT) devices and the growth of users’ demand for computation and real-time services, artificial intelligence has been applied to reduce the system cost for future network systems. To meet the demand of network services, the paradigm of edge networks is increasingly shifting towards the joint design of computation, communication and caching services. This paper investigates a multi-user cache-enabled mobile edge computing (MEC) network and proposes an intelligent particle swarm optimization (PSO) based offloading strategy with cache mechanism. In each time slot, the server selects one file among multiple ones to pre-store, according to the proposed cache replacement strategy. In the next time slot, the requested files by the users needn’t to be computed and offloaded, if these files have been cached in the server. For the files that have not been cached in the server, PSO algorithm is adopted to find an appropriate offloading ratio to implement the partial offloading. Simulation results are finally presented to validate the proposed studies. In particular, we can find that incorporating the proposed cache replacement strategy into the computation offloading can effectively reduce the system latency and energy consumption for the future networks.

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Xie, H., Gao, F., Zhang, S., Jin, S.: A unified transmission strategy for TDD/FDD massive MIMO systems with spatial basis expansion model. IEEE Trans. Veh. Technol. 66(4), 3170–3184 (2017)CrossRef

Hu, X., Zhong, C., Zhu, Y., Chen, X., Zhang, Z.: Programmable metasurface-based multicast systems: design and analysis. IEEE J. Sel. Areas Commun. 38(8), 1763–1776 (2020)CrossRef

Kumar, B.A., Rao, P.T.: Optimized design and analysis approach of user detection by non cooperative detection computing methods in CR networks. Clust. Comput. 22(4), 9777–9785 (2019)

Zhao, J., Liu, J.: Future 5G-oriented system for urban rail transit: opportunities and challenges. IEEE Trans. Veh. Technol. 18(2), 1–12 (2021)

Lai, X.: Secure mobile edge computing networks in the presence of multiple eavesdroppers. IEEE Trans. Commun. 1–12 (2021)

Zhao, J., Li, Q., Gong, Y., Zhang, K.: Computation offloading and resource allocation for cloud assisted mobile edge computing in vehicular networks. IEEE Trans. Veh. Technol. 68(8), 7944–7956 (2019)CrossRef

Khan, S.I., Qadir, Z., Munawar, H.S., Nayak, S.R., Budati, A.K., Verma, K., Prakash, D.: UAVs path planning architecture for effective medical emergency response in future networks. Phys. Commun. 47, 101337 (2021)

Chen, L.: Intelligent ubiquitous computing for future UAV-enabled MEC network systems. Clust. Comput. 99, 1–8 (2021)

Lai, S.: Intelligent secure mobile edge computing for beyond 5G wireless networks. Phys. Commun. 45(101283), 1–8 (2021)

10.

Guo, Y.: Efficient and flexible management for industrial internet of things: a federated learning approach. Comput. Netw. 192, 1–9 (2021)CrossRef

11.

Lai, S., Guo, Y.: Distributed machine learning for multiuser mobile edge computing systems. IEEE J. Sel. Top. Signal Process. 99, 1–12 (2021)

12.

Li, C.: Dynamic offloading for multiuser muti-CAP MEC networks: a deep reinforcement learning approach. IEEE Trans. Veh. Technol. 70(3), 2922–2927 (2021)CrossRef

13.

Zhao, R.: Deep reinforcement learning based mobile edge computing for intelligent internet of things. Phys. Commun. 43, 1–7 (2020)

14.

He, K.: Learning based signal detection for MIMO systems with unknown noise statistics. IEEE Trans. Commun. 69, 3025–3038 (2021)CrossRef

15.

He, K.: Ultra-reliable MU-MIMO detector based on deep learning for 5G/B5G-enabled IoT. Phys. Commun. 43, 1–7 (2020)CrossRef

16.

Tang, S.: Dilated convolution based CSI feedback compression for massive MIMO systems. IEEE Trans. Veh. Technol. 99, 1–5 (2021)

17.

Xia, J., Fan, L.: Computational intelligence and deep reinforcement learning for next-generation industrial IoT. IEEE Trans. Netw. Sci. Eng. 99, 1–12 (2021)

18.

Tang, S.: Battery-constrained federated edge learning in UAV-enabled IoT for B5G/6G networks. Phys. Commun. 47(101381), 1–9 (2021)

19.

Zhao, Z.: System optimization of federated learning networks with a constrained latency. IEEE Trans. Veh. Technol. 99, 1–5 (2021)

20.

Wang, X., Chen, M., Taleb, T., Ksentini, A., Leung, V.C.M.: Cache in the air: exploiting content caching and delivery techniques for 5G systems. IEEE Commun. Mag. 52(2), 131–139 (2014)CrossRef

21.

Xia, J.: Secure cache-aided multi-relay networks in the presence of multiple eavesdroppers. IEEE Trans. Commun. 67(11), 7672–7685 (2019)CrossRef

22.

Bi, S., Huang, L., Zhang, Y.A.: Joint optimization of service caching placement and computation offloading in mobile edge computing systems. IEEE Trans. Wirel. Commun. 19(7), 4947–4963 (2020)CrossRef

23.

Hu, X., Zhong, C., Zhang, Y., Chen, X., Zhang, Z.: Location information aided multiple intelligent reflecting surface systems. IEEE Trans. Commun. 68(12), 7948–7962 (2020)CrossRef

24.

He, L., He. K.: Towards optimally efficient search with deep learning for large-scale MIMO systems. IEEE Trans. Commun. (99), 1-12 (2022)

25.

Wang, Y., Adachi, F.: Multi-task learning for generalized automatic modulation classification under non-Gaussian noise with varying SNR conditions. IEEE Trans. Wirel. Commun. (2021). https://doi.org/10.1109/TWC.2021.3052222

26.

Hu, X., Wang, J., Zhong, C.: Statistical CSI based design for intelligent reflecting surface assisted MISO systems. Sci. China: Inf. Sci. 63(12), 222303 (2020)

27.

Li, X., Mengyan, H., Liu, Y., Menon, VG., Paul, A., Ding, Z.: I/Q imbalance aware nonlinear wireless-powered relaying of B5G networks: security and reliability analysis. IEEE Trans. Netw. Sci. Eng. (2020). https://doi.org/10.1109/TNSE.2020.3020950

28.

Na, Z., Wang, J., Liu, C., Guan, M., Gao, Z.: Join trajectory optimization and communication design for UAV-enabled OFDM networks. Ad Hoc Netw. 98, 102031 (2020). https://doi.org/10.1016/j.adhoc.2019.102031

29.

Ale, L., Zhang, N., Fang, X., Chen, X., Wu, S., Li, L.: Delay-aware and energy-efficient computation offloading in mobile edge computing using deep reinforcement learning. IEEE Trans. Cogn. Commun. Netw. (2021). https://doi.org/10.1109/TCCN.2021.3066619

30.

Zhang, J., Hu, X., Ning, Z., Ngai, E.C.H., Zhou, L., Wei, J., Cheng, J., Hu, B.: Energy-latency tradeoff for energy-aware offloading in mobile edge computing networks. IEEE Internet Things J. 5(4), 2633–2645 (2017)CrossRef

31.

Zhang, W., Wen, Y., Guan, K., Kilper, D., Luo, H., Wu, D.O.: Energy-optimal mobile cloud computing under stochastic wireless channel. IEEE Trans. Wirel. Commun. 12(9), 4569–4581 (2013)CrossRef

32.

Zhao, Z., Zhao, R., Xia, J., Lei, X., Li, D., Yuen, C., Fan, L.: A novel framework of three-hierarchical offloading optimization for MEC in industrial IoT networks. IEEE Trans. Ind. Inform. 16(8), 5424–5434 (2020). https://doi.org/10.1109/TII.2019.2949348CrossRef

33.

Yadav, R., Zhang, W., Kaiwartya, O., Song, H., Yu, S.: Energy-latency tradeoff for dynamic computation offloading in vehicular fog computing. IEEE Trans. Veh. Technol. 69(12), 14198–14211 (2020). https://doi.org/10.1109/TVT.2020.3040596CrossRef

34.

Chen, B., Yang, C.: Caching policy for cache-enabled D2D communications by learning user preference. IEEE Trans. Commun. 66(12), 6586–6601 (2018)CrossRef

35.

Cheng, C., Guo, L.: Machine learning-aided trajectory prediction and conflict detection for internet of aerial vehicles. IEEE Internet Things J. (2021). https://doi.org/10.1109/JIOT.2021.3060904

36.

Li, X., Wang, Q., Liu, M., Li, J., Peng, H., Piran, M.J., Li, L.: Cooperative wireless-powered noma relaying for B5G IoT networks with hardware impairments and channel estimation errors. IEEE Internet Things J. 8(7), 5453–5467 (2021). https://doi.org/10.1109/JIOT.2020.3029754CrossRef

37.

Na, Z., Liu, Y., Shi, J., Liu, C., Gao, Z.: UAV-supported clustered NOMA for 6G-enabled internet of things: trajectory planning and resource allocation. IEEE Internet Things J. (2020). https://doi.org/10.1109/JIOT.2020.3004432CrossRef

38.

Wang, Z.: An adaptive deep learning-based UAV receiver design for coded MIMO with correlated noise. Phys. Commun. 45(101295), 1–8 (2021)

39.

Li, X., Zhao, M., Zeng, M., Mumtaz, S., Menon, V.G., Ding, Z., Dobre, O.A.: Hardware impaired ambient backscatter NOMA systems: reliability and security. IEEE Trans. Commun. 69(4), 2723–2736 (2021). https://doi.org/10.1109/TCOMM.2021.3050503CrossRef

40.

Xia, J., Deng, D., Fan, D.: A note on implementation methodologies of deep learning-based signal detection for conventional MIMO transmitters. IEEE Trans. Broadcast. 66(3), 744–745 (2020)CrossRef

41.

Yang, J., Ruan, D., Huang, J., Kang, X., Shi, Y.: An embedding cost learning framework using GAN. IEEE Trans. Inf. Forensics Secur. 15, 839–851 (2020)CrossRef

Title: Offloading strategy with PSO for mobile edge computing based on cache mechanism
Authors: Wenqi Zhou
Lunyuan Chen
Shunpu Tang
Lijia Lai
Junjuan Xia
Fasheng Zhou
Liseng Fan
Publication date: 02-11-2021
Publisher: Springer US
Published in: Cluster Computing / Issue 4/2022
Print ISSN: 1386-7857
Electronic ISSN: 1573-7543
DOI: https://doi.org/10.1007/s10586-021-03414-0

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