Core Concepts
Introducing an SDN-based dynamic QoS provisioning scheme for multi-tenant networks to prioritize traffic and enhance network efficiency.
Abstract
This content discusses the critical need for prioritized multi-tenant quality-of-service (QoS) management in emerging mobile edge systems, focusing on high-throughput networks beyond fifth-generation. The study introduces a software-defined networking (SDN)-based dynamic QoS provisioning scheme that separates control and data planes, automates traffic management, and ensures ample bandwidth allocation for priority flows. Empirical experiments validate the effectiveness of the proposed scheme in meeting multi-tenant QoS criteria.
I. Introduction:
Emphasizes the necessity for uniform control plane operations and dynamic QoS management in B5G technology.
Highlights challenges faced by traditional network infrastructures in meeting B5G standards.
II. State-of-the-Arts:
Discusses prior studies integrating QoS within SDN frameworks but lacking focus on bandwidth assurance.
III. Autonomous Software-Defined Edge Networks:
Introduces a novel approach to managing QoS effectively by prioritizing traffic in 6G communication systems.
IV. Multi-Tenant Quality-of-Service Provisioning with Traffic Prioritization:
Describes the system's approach to prioritizing QoS provisioning for various tenants using predefined goals and meter tables.
V. Performance Evaluation:
Analyzes the effectiveness of the proposed scheme through Mininet simulations, demonstrating throughput improvements with priority flow identification.
VI. Conclusions:
Summarizes the key contributions of the study and its implications for future traffic engineering advancements.
Stats
Empirical experiments validate the proposed scheme's effectiveness in meeting multi-tenant QoS criteria.