An Intelligent SDWN Routing Algorithm Based on Network Situational Awareness and Deep Reinforcement Learning

• URL: http://arxiv.org/abs/2305.10441v1
• Date: Fri, 12 May 2023 14:18:09 GMT
• Title: An Intelligent SDWN Routing Algorithm Based on Network Situational Awareness and Deep Reinforcement Learning
• Authors: Jinqiang Li, Miao Ye, Linqiang Huang, Xiaofang Deng, Hongbing Qiu and Yong Wang
• Abstract summary: This article introduces an intelligent routing algorithm (DRL-PPONSA) based on deep reinforcement learning with network situational awareness. Experimental results show that DRL-PPONSA outperforms traditional routing methods in network throughput, delay, packet loss rate, and wireless node distance.
• Score: 4.085916808788356
• License: http://arxiv.org/licenses/nonexclusive-distrib/1.0/
• Abstract: Due to the highly dynamic changes in wireless network topologies, efficiently obtaining network status information and flexibly forwarding data to improve communication quality of service are important challenges. This article introduces an intelligent routing algorithm (DRL-PPONSA) based on proximal policy optimization deep reinforcement learning with network situational awareness under a software-defined wireless networking architecture. First, a specific data plane is designed for network topology construction and data forwarding. The control plane collects network traffic information, sends flow tables, and uses a GCN-GRU prediction mechanism to perceive future traffic change trends to achieve network situational awareness. Second, a DRL-based data forwarding mechanism is designed in the knowledge plane. The predicted network traffic matrix and topology information matrix are treated as the environment for DRL agents, while next-hop adjacent nodes are treated as executable actions. Accordingly, action selection strategies are designed for different network conditions to achieve more intelligent, flexible, and efficient routing control. The reward function is designed using network link information and various reward and penalty mechanisms. Additionally, importance sampling and gradient clipping techniques are employed during gradient updating to enhance convergence speed and stability. Experimental results show that DRL-PPONSA outperforms traditional routing methods in network throughput, delay, packet loss rate, and wireless node distance. Compared to value-function-based Dueling DQN routing, the convergence speed is significantly improved, and the convergence effect is more stable. Simultaneously, its consumption of hardware storage space is reduced, and efficient routing decisions can be made in real-time using the current network state information.

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