An Integrated Approach of Efficient Edge Task Offloading Using Deep RL, Attention and MDS Techniques
SN Computer Science(2024)
Indian Institute of Technology Patna
Abstract
In Distributed Computation Optimization (DCO) networks, where clients distribute computational jobs among heterogeneous helpers with different capacities and pricing models, efficient task offloading and cost reduction continue to be major issues. In order to tackle this problem, a unique method utilizing Deep Reinforcement Learning (DRL) is presented in this study. The DRL algorithm allows clients to independently identify the best method of action without requiring prior knowledge of network dynamics since it adjusts to the dynamic and stochastic nature of DCO environments. In distributed computing environments, the combination of Maximum Distance Separable (MDS) and DRL approaches provides a stable framework for task offloading. The suggested method finds the best policy for helper selection and task offloading by combining reward estimation, action selection, environment modeling, and iterative learning approaches. In particular, energy consumption, density, and total rewards show that the DRL algorithm performs better in experimental evaluations than traditional techniques like Q-learning and random selection. The algorithm’s performance is further improved by the integration of DQN with the attention mechanism, highlighting its potential to completely transform the efficiency of DCO networks. This work highlights how DRL approaches have a significant effect on network operations optimization and offers insightful information about future developments in distributed computation paradigms.
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Key words
Distributed computation optimization,Deep reinforcement learning,Edge computing,Task offloading,MDS techniques
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