AIoT-enabled service prioritization for mobile nodes using enhanced PMIPv6 extension protocol
Abstract
Network-based mobility protocols, such as proxy mobile IPv6, are widely recognized as one of the most popular options for facilitating seamless mobility and reducing the burden of mobility-related signaling on mobile nodes in massive IoT environments. In the modern IoT ecosystem, experts in the field leverage the capabilities of artificial intelligence to enhance the performance of such protocols. The forthcoming communication paradigm offers enhanced mobility, extensive data transmission capabilities, robust security measures, and a wider array of heterogeneous internet-accessible devices. To meet the requirements and ensure the quality of services, domain experts are actively exploring avenues to develop efficient mobility protocols and cost-effective mobility solutions. To address the existing and future mobility requirements, this research introduces a comprehensive framework that is capable for optimizing services as well as energy efficiency. The proposed solution is thoroughly evaluated, and the effectiveness of the framework is validated. The evaluation results demonstrate that the proposed solution effectively achieves service optimization, and energy efficiency, and provides an efficient framework for accommodating the mobility requirements of both current and future AIoT environments.
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