Affiliation:
1. School of Artificial Intelligence Technology, Guangxi Technological College of Machinery and Electricity, Nanning 530007, China
2. School of Information Engineering, Guangxi Vocational University of Agriculture, Nanning 530007, China
3. School of Computer and Electronic Information, Guangxi University, Nanning 530004, China
Abstract
Task offloading and resource allocation is a research hotspot in cloud-edge collaborative computing. Many existing pieces of research adopted single-agent reinforcement learning to solve this problem, which has some defects such as low robustness, large decision space, and ignoring delayed rewards. In view of the above deficiencies, this paper constructs a cloud-edge collaborative computing model, and related task queue, delay, and energy consumption model, and gives joint optimization problem modeling for task offloading and resource allocation with multiple constraints. Then, in order to solve the joint optimization problem, this paper designs a decentralized offloading and scheduling scheme based on “task-oriented” multi-agent reinforcement learning. In this scheme, we present information synchronization protocols and offloading scheduling rules and use edge servers as agents to construct a multi-agent system based on the Actor–Critic framework. In order to solve delayed rewards, this paper models the offloading and scheduling problem as a “task-oriented” Markov decision process. This process abandons the commonly used equidistant time slot model but uses dynamic and parallel slots in the step of task processing time. Finally, an offloading decision algorithm TOMAC-PPO is proposed. The algorithm applies the proximal policy optimization to the multi-agent system and combines the Transformer neural network model to realize the memory and prediction of network state information. Experimental results show that this algorithm has better convergence speed and can effectively reduce the service cost, energy consumption, and task drop rate under high load and high failure rates. For example, the proposed TOMAC-PPO can reduce the average cost by from 19.4% to 66.6% compared to other offloading schemes under the same network load. In addition, the drop rate of some baseline algorithms with 50 users can achieve 62.5% for critical tasks, while the proposed TOMAC-PPO only has 5.5%.
Funder
National Natural Science Foundation of China
2022 Guangxi Vocational Education Teaching Reform Research Key Project
Research on the Six in One Talent Training Model of “Post, Course, Competition, Certificate, Training, and Creation” in the College of Artificial Intelligence Industry
Design and Application of Computer Experiment Site Management System Based on Information Technology
Reference24 articles.
1. (2024, August 28). IoT and Non-IoT Connections Worldwide 2010–2025. Available online: https://www.statista.com/statistics/1101442/iot-number-of-connected-devices-worldwide.
2. (2024, August 28). IoT Is Not a Buzzword but Necessity. Available online: https://www.3i-infotech.com/iot-is-not-just-a-buzzword-but-has-practical-applications-even-in-industries/.
3. Survey on the Methods of Computation Offloading in Molile Edge Computing;Zhang;J. Comput. Sci. Technol.,2021
4. Distributed artificial intelligence empowered by end-edge-cloud computing: A survey;Duan;IEEE Commun. Surv. Tutor.,2022
5. Edge computing with artificial intelligence: A machine learning perspective;Hua;ACM Comput. Surv.,2023