Secure computation offloading assisted by intelligent reflection surface for mobile edge computing network

• Published in: Physical communication Vol. 57; p. 102003
• Main Authors: Chen, Xue, Xu, Hongbo, Zhang, Guoping, Chen, Yun, Li, Ruijie
• Format: Journal Article
• Language: English
• Published: Elsevier B.V 01.04.2023
• Subjects: Block coordinate descent; Communication design; Computation setting; Intelligent reflecting surface; Mobile edge computing; Secure offloading; Communication design; Intelligent reflecting surface; Computation setting; Mobile edge computing; Secure offloading; Block coordinate descent
• ISSN: 1874-4907; 1876-3219
• DOI: 10.1016/j.phycom.2023.102003

As an novel paradigm, computation offloading in the mobile edge computing (MEC) system can effectively support the resource-intensive applications for the mobile devices (MD) equipped with limited computing capability. However, the hostile radio transmission and data leakage during the offloading process may erode the MEC system’s potential. To tackle these hindrances, we investigate an IRS-assisted secure MEC system with eavesdroppers, where the intelligent reflecting surface (IRS) is deployed to enhance the communication between the MD and the AP equipped with edge servers and the malicious eavesdroppers may attack the wireless data offloaded by MD. The MD opt for offloading part of the tasks to the edge server for execution to support the computation-intensive applications. Moreover, the relevant latency minimization problem is formulated by optimizing the offloading ratio, the allocation of edge server computing capability, the multiple-user-detection (MUD) matrix and the IRS phase shift parameters, subject to the constraints of edge computation resource and practical IRS phase shifts. Then, the original problem is decouple into two subproblem, and the computing and communication subproblems are alternatively optimized by block coordinate descent (BCD) method with low complexity. Finally, simulation results demonstrate that the proposed scheme can significantly enhance the performance of secure offloading in the MEC system.