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An Empirical Investigation on Employing Machine Learning for Balancing Home Agent Loads in Next Generation IP Mobility

Publication Type : Journal Article

Publisher : Elsevier

Source : Procedia Computer Science

Url : https://www.sciencedirect.com/science/article/pii/S1877050924008780

Campus : Coimbatore

School : School of Computing

Year : 2024

Abstract : Mobile IPv6 is a key technology to enable the mobility of devices on next-generation internet protocol networks. Home agents provide simple services to registered mobile nodes. In addition, the use of multiple domestic operators for load-balancing devices faces problems of synchronization and signalling overhead. Thus, most of the existing load balancing methods present a significant delay in the transmission of data packets. The machine learning approach provides an efficient hardware storage solution for balancing the load of the home agent by improving the state-work schedule. It provides a method for dynamic load balancing based on the research-consumption system. Thus, the present paper investigates the use of machine learning, specifically reinforcement learning, to enhance home agent load balancing in next-generation IP traffic. The reinforcement learning-based home agent decisions, guided by mobile node speed and registration queries, reduce latency, improve network performance, and provide dynamic solutions. The proposed method significantly reduces the delay for packet delivery by balancing the home agent load with the incorporation of reward parameters. The empirical investigation found a remarkable improvement in network reliability, as manifested by a 2.31% increase in packet delivery ratio compared to systems with existing methods.

Cite this Research Publication : Khatri, Anshu, Senthilkumar Mathi, R. Deepthika, and Venkadeshan Ramalingam. "An Empirical Investigation on Employing Machine Learning for Balancing Home Agent Loads in Next Generation IP Mobility." Procedia Computer Science 235 (2024): 2135-2143.

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