Dependent Task Offloading for Edge Computing based on Deep Reinforcement Learning

计算机科学 强化学习 边缘计算 有向无环图 延迟(音频) 分布式计算 任务(项目管理) 启发式 GSM演进的增强数据速率 人工智能 算法 电信 经济 管理
作者
Jin Wang,Jia Hu,Geyong Min,Wenhan Zhan,Albert Y. Zomaya,Nektarios Georgalas
出处
期刊:IEEE Transactions on Computers [Institute of Electrical and Electronics Engineers]
卷期号:71 (10): 2449-2461 被引量:234
标识
DOI:10.1109/tc.2021.3131040
摘要

Edge computing is an emerging promising computing paradigm that brings computation and storage resources to the network edge, hence significantly reducing the service latency and network traffic. In edge computing, many applications are composed of dependent tasks where the outputs of some are the inputs of others. How to offload these tasks to the network edge is a vital and challenging problem which aims to determine the placement of each running task in order to maximize the Quality-of-Service (QoS). Most of the existing studies either design heuristic algorithms that lack strong adaptivity or learning-based methods but without considering the intrinsic task dependency. Different from the existing work, we propose an intelligent task offloading scheme leveraging off-policy reinforcement learning empowered by a Sequence-to-Sequence (S2S) neural network, where the dependent tasks are represented by a Directed Acyclic Graph (DAG). To improve the training efficiency, we combine a specific off-policy policy gradient algorithm with a clipped surrogate objective. We then conduct extensive simulation experiments using heterogeneous applications modelled by synthetic DAGs. The results demonstrate that: 1) our method converges fast and steadily in training; 2) it outperforms the existing methods and approximates the optimal solution in latency and energy consumption under various scenarios.
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