DW&C:Dollops Wise Curtail IPv4/IPv6 Transition Mechanism using NS2

TL;DR

This paper introduces Dollops Wise Curtail (DW&C), a new IPv4/IPv6 transition mechanism, demonstrating through NS2 simulations that it outperforms existing methods BD-SIIT and DSTM in throughput, delay, and packet drop rate.

Contribution

The paper proposes a novel IPv4/IPv6 transition algorithm, DW&C, and provides a comprehensive performance comparison with existing mechanisms using extensive NS2 simulations.

Findings

DW&C reduces packet drop rate compared to BD-SIIT and DSTM.

DW&C achieves lower end-to-end delay than existing mechanisms.

DW&C attains higher throughput across various traffic types.

Abstract

BD-SIIT and DSTM are widely deployed IPv4/IPv6 Transition mechanism to improve the performance of the computer network in terms of Throughput,End to End Delay(EED) and Packet Drop Rate(PDR).In this journal paper we have Implemented and Compared the Performance Issues of our newly proposed Dollops Wise Curtail(DW&C)IPv4/IPv6 Migration Mechanism with BD-SIIT and DSTM in NS2. Implementation and Comparison Performance Analysis between Dollops Wise Curtail,BD-SIIT and DSTM shows that Dollops Wise Curtail IPv4/IPv6 migration algorithm performance outperforms than BD-SIIT and DSTM.Based on extensive simulations,we show that DW&C algorithm reduces the Packet Drop Rate(PDR),End to End Delay(EED) and achieves better Throughput than BD-SIIT and DSTM.In our research work observation,the performance metrics such as Throughput,EED and PLR for DW&C,BD-SIIT and DSTM are measured using TCP,UDP,FTP and CBR Traffics