Comparative Evaluation of Host-Based Translator Mechanisms for IPv4-IPv6 Communication Performance Analysis With Different Routing Protocols

Q2 Computer Science

International Journal of Cloud Applications and Computing Pub Date : 2023-10-25 DOI:10.4018/ijcac.332765

Ala Hamarsheh, Ahmad Alqeerm, Iman Akour, Mohammad Alauthman, Amjad Aldweesh, Ali Mohd Ali, Ammar Almomani, Someah Alangari

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引用次数: 0

Abstract

The impending exhaustion of internet protocol (IP) version four (IPv4) addresses necessitates a transition to the more expansive IP version six (IPv6) protocol. However, this shift faces challenges due to the widespread legacy of IPv4 infrastructure and resistance among organizations to overhaul networks. Host-based translators offer a critical bridging solution by enabling IPv6-only devices to communicate with IPv4-only devices through software-level protocol translation. This paper comprehensively evaluates four pivotal host-based translator mechanisms—bump-in-the-stack (BIS), bump-in-the-application programming interface (API) (BIA), BIA version 2 (BIAv2), and bump-in-the-host (BIH). Using simulated networks with diverse configurations of IPv4/IPv6 applications, hosts, and routing protocols, the authors assessed performance through metrics including packet loss, convergence time, traffic throughput, and overhead. The results reveal variability in effectiveness across both translators and scenarios. BIAv2 demonstrated advantages in throughput and overhead due to stateless mapping. The research underscores the importance of selecting the optimal translation approach for specific network environments and goals. It guides smoother IPv6 adoption by demonstrating how host-based translators can facilitate coexistence during transition. Further exploration of performance tradeoffs can continue guiding effective deployment strategies.

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基于主机的转换机制在不同路由协议下IPv4-IPv6通信性能分析中的比较评价

即将耗尽的互联网协议(IP)版本4 (IPv4)地址需要过渡到更广泛的IP版本6 (IPv6)协议。然而，由于IPv4基础设施的广泛遗留和组织对网络改革的抵制，这种转变面临着挑战。基于主机的翻译器提供了一个关键的桥接解决方案，它使纯ipv6设备能够通过软件级协议转换与纯ipv4设备进行通信。本文全面评估了四种关键的基于主机的翻译机制——堆栈碰撞(BIS)、应用程序碰撞编程接口(BIA)、BIA版本2 (BIAv2)和主机碰撞(BIH)。使用具有不同配置的IPv4/IPv6应用程序、主机和路由协议的模拟网络，作者通过包括丢包、收敛时间、流量吞吐量和开销在内的指标评估了性能。结果表明，在不同的翻译人员和场景中，翻译的有效性存在差异。由于无状态映射，BIAv2在吞吐量和开销方面具有优势。该研究强调了针对特定网络环境和目标选择最佳翻译方法的重要性。它通过演示基于主机的翻译器如何在过渡期间促进共存来指导更顺畅的IPv6采用。进一步探索性能权衡可以继续指导有效的部署策略。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

International Journal of Cloud Applications and Computing COMPUTER SCIENCE, SOFTWARE ENGINEERING-

CiteScore

6.40

自引率

0.00%

发文量