Advances, Systems and Applications
From: MSCO: Mobility-aware Secure Computation Offloading in blockchain-enabled Fog computing environments
Research work | Methodology | Mobility | Delay | Energy | Security |
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Shah-Mansouri et al. [5] | Computation offloading game | \(\checkmark\) | \(\checkmark\) | ||
Guo et al. [6] | Two-tier game theoretic greedy offloading scheme | \(\checkmark\) | |||
Wang et al. [7] | Convex Optimization | \(\checkmark\) | \(\checkmark\) | ||
Meng et al. [8] | Computation energy efficiency based task offloading | \(\checkmark\) | \(\checkmark\) | ||
Chang et al. [9] | Queuing Theory | \(\checkmark\) | \(\checkmark\) | ||
Sun et al. [21] | A modified genetic algorithm based scheduling scheme | \(\checkmark\) | \(\checkmark\) | ||
Zheng et al. [29] | A stochastic game-theoretic approach | \(\checkmark\) | \(\checkmark\) | ||
Al-shatri et al. [22] | Distributed decision algorithm | \(\checkmark\) | \(\checkmark\) | \(\checkmark\) | |
Chatzopoules et al. [15] | Hidden Market design approach | \(\checkmark\) | \(\checkmark\) | \(\checkmark\) | |
Luong et al. [16] | Deep learning approach | \(\checkmark\) | \(\checkmark\) | ||
Dou et al. [17] | Blockchain based mobility aware offloading method | \(\checkmark\) | \(\checkmark\) | \(\checkmark\) | |
Xu et al. [18] | Blockchain based computation offloading method | \(\checkmark\) | \(\checkmark\) | ||
Xiong et al. [19] | Two-stage stackelberg game theory approach | \(\checkmark\) | \(\checkmark\) | ||
Nguyen et al. [23] | Deep reinforcement learning approach | \(\checkmark\) | \(\checkmark\) | \(\checkmark\) | |
Xu et al. [10] | Blockchain, Nondominated sorting genetic algorithm III | \(\checkmark\) | \(\checkmark\) | \(\checkmark\) | |
MSCO | Blockchain, Hybrid GA+PSO | \(\checkmark\) | \(\checkmark\) | \(\checkmark\) | \(\checkmark\) |