ScaleDRL: A Scalable Deep Reinforcement Learning Approach for Traffic Engineering in SDN with Pinning Control

Keyphrases

• Software-defined Networking 100%
• Traffic Engineering 100%
• Deep Reinforcement Learning (deep RL) 100%
• Pinning Control 100%
• Reinforcement Learning Approach 100%
• Learning-based 28%
• Control Theory 28%
• Link Weight 28%
• Engineering Schemes 28%
• Critical Links 28%
• Engineering Policy 28%
• Learning Technologies 14%
• Learning Collaborative 14%
• Large-scale Networks 14%
• Controller 14%
• Machine Learning 14%
• Engineering Solution 14%
• Modern Communication 14%
• Fixed Model 14%
• Communication Networks 14%
• Network Technology 14%
• Network Traffic 14%
• Network Topology 14%
• Scalability Issues 14%
• Traffic Scheduling 14%
• Weighted Shortest Path 14%
• Traffic Distribution 14%
• Packet-level Simulation 14%
• Networked Control 14%
• End-to-end Transmission Delay 14%
• Deep Reinforcement Learning Algorithm 14%
• Network Flow 14%
• Efficient Network 14%
• Distribution Information 14%
• Dynamically Adjust 14%
• Solution Efficiency 14%
• Scheduling Problem 14%
• Control Scheme 14%
• Shortest Path Algorithm 14%
• Dynamic Linkages 14%

Computer Science

• Learning Approach 100%
• Software-Defined Networking 100%
• Deep Reinforcement Learning 100%
• Control Theory 33%
• Learning Technology 16%
• Distribution Information 16%
• Traditional Method 16%
• Communication Network 16%
• Transmission Delay 16%
• Reinforcement Learning 16%
• Network Topology 16%
• Scheduling Problem 16%
• Level Simulation 16%
• Shortest Path Algorithm 16%
• Network Control 16%
• Objective Function 16%
• Network Traffic 16%
• Forwarding Path 16%
• Machine Learning 16%
• Learning System 16%