Maximization of Communication Network Throughput using Dynamic Traffic Allocation Scheme

TL;DR

This paper introduces a dynamic traffic allocation scheme that optimizes network throughput and QoS for multimedia data by prioritizing data types and considering network conditions, outperforming static routing methods.

Contribution

The paper presents a novel dynamic traffic allocation model that improves resource utilization and QoS in multimedia networks, addressing limitations of traditional static routing protocols.

Findings

Significant throughput improvement over static load balancing.

Effective maintenance of QoS for delay-sensitive multimedia data.

Validation through simulation demonstrates robustness across various network scenarios.

Abstract

Optimizing network throughput in real-world dynamic systems is critical, especially for diverse and delay-sensitive multimedia data types such as VoIP and video streaming. Traditional routing protocols, which rely on static metrics and single shortest-path algorithms, were unable in managing this complex information. To address these challenges, we propose a novel approach that enhances resource utilization while maintaining Quality of Service (QoS). Our dynamic traffic allocation model prioritizes different data types based on their delay sensitivity and allocates traffic by considering factors such as bandwidth, latency, and network failures. This approach is shown to significantly improve network throughput compared to static load balancing, especially for multimedia applications. Simulation results confirm the effectiveness of this dynamic method in maximizing network throughput and maintaining QoS across various data types.