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    Advanced Deep Learning for Resource Allocation and Security Aware Data Offloading in Industrial Mobile Edge Computing

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    Date
    2021-08-01
    Author
    Elgendy, Ibrahim A.
    Muthanna, Ammar
    Hammoudeh, Mohammad
    Shaiba, Hadil
    Unal, Devrim
    Khayyat, Mashael
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    Abstract
    The Internet of Things (IoT) is permeating our daily lives through continuous environmental monitoring and data collection. The promise of low latency communication, enhanced security, and efficient bandwidth utilization lead to the shift from mobile cloud computing to mobile edge computing. In this study, we propose an advanced deep reinforcement resource allocation and security-aware data offloading model that considers the constrained computation and radio resources of industrial IoT devices to guarantee efficient sharing of resources between multiple users. This model is formulated as an optimization problem with the goal of decreasing energy consumption and computation delay. This type of problem is non-deterministic polynomial time-hard due to the curse-of-dimensionality challenge, thus, a deep learning optimization approach is presented to find an optimal solution. In addition, a 128-bit Advanced Encryption Standard-based cryptographic approach is proposed to satisfy the data security requirements. Experimental evaluation results show that the proposed model can reduce offloading overhead in terms of energy and time by up to 64.7% in comparison with the local execution approach. It also outperforms the full offloading scenario by up to 13.2%, where it can select some computation tasks to be offloaded while optimally rejecting others. Finally, it is adaptable and scalable for a large number of mobile devices.
    URI
    https://www.scopus.com/inward/record.uri?partnerID=HzOxMe3b&scp=85105668676&origin=inward
    DOI/handle
    http://dx.doi.org/10.1089/big.2020.0284
    http://hdl.handle.net/10576/54068
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