TY - EJOU AU - Dhandapani, Meignanamoorthi AU - Vetriselvi, V. AU - Aishwarya, R. TI - CoopAI-Route: DRL Empowered Multi-Agent Cooperative System for Efficient QoS-Aware Routing for Network Slicing in Multi-Domain SDN T2 - Computer Modeling in Engineering \& Sciences PY - 2024 VL - 140 IS - 3 SN - 1526-1506 AB - The emergence of beyond 5G networks has the potential for seamless and intelligent connectivity on a global scale. Network slicing is crucial in delivering services for different, demanding vertical applications in this context. Next-generation applications have time-sensitive requirements and depend on the most efficient routing path to ensure packets reach their intended destinations. However, the existing IP (Internet Protocol) over a multi-domain network faces challenges in enforcing network slicing due to minimal collaboration and information sharing among network operators. Conventional inter-domain routing methods, like Border Gateway Protocol (BGP), cannot make routing decisions based on performance, which frequently results in traffic flowing across congested paths that are never optimal. To address these issues, we propose CoopAI-Route, a multi-agent cooperative deep reinforcement learning (DRL) system utilizing hierarchical software-defined networks (SDN). This framework enforces network slicing in multi-domain networks and cooperative communication with various administrators to find performance-based routes in intra- and inter-domain. CoopAI-Route employs the Distributed Global Topology (DGT) algorithm to define inter-domain Quality of Service (QoS) paths. CoopAI-Route uses a DRL agent with a message-passing multi-agent Twin-Delayed Deep Deterministic Policy Gradient method to ensure optimal end-to-end routes adapted to the specific requirements of network slicing applications. Our evaluation demonstrates CoopAI-Route’s commendable performance in scalability, link failure handling, and adaptability to evolving topologies compared to state-of-the-art methods. KW - 6G; multi-domain; multi-agent; routing; DRL; SDN DO - 10.32604/cmes.2024.050986