Class-Based Service Connectivity using Multi-Level Bandwidth Adaptation in Multimedia Wireless Networks

TL;DR

This paper introduces a multi-level bandwidth adaptation model for multimedia wireless networks that prioritizes traffic classes, reduces call blocking and termination probabilities, and maintains high bandwidth utilization.

Contribution

It proposes a novel multi-level bandwidth adaptation scheme that enhances priority handling and reduces call dropping without sacrificing bandwidth efficiency.

Findings

Significantly reduces forced call termination probability.

Achieves negligible handover call dropping probability.

Reduces new call blocking probability for high-priority calls.

Abstract

Due to the fact that quality of service requirements are not very strict for all traffic types, more calls of higher priority can be accommodated by reducing some bandwidth allocation for the bandwidth adaptive calls. The bandwidth adaptation to accept a higher priority call is more than that of a lower priority call. Therefore, the multi-level bandwidth adaptation technique improves the overall forced call termination probability as well as provides priority of the traffic classes in terms of call blocking probability without reducing the bandwidth utilization. We propose a novel bandwidth adaptation model that releases multi-level of bandwidth from the existing multimedia traffic calls. The amount of released bandwidth is decided based on the priority of the requesting traffic calls and the number of existing bandwidth adaptive calls. This prioritization of traffic classes does not reduce the bandwidth utilization. Moreover, our scheme reduces the overall forced call termination probability significantly. The proposed scheme is modeled using the Markov Chain. The numerical results show that the proposed scheme is able to provide negligible handover call dropping probability as well as significantly reduced new call blocking probability of higher priority calls without increasing the overall forced call termination probability.