Hybrid Internet Architecture and Protocol (HIAP): A Self-Evolving and Transformative Framework for Enabling Seamless Real-Time Applications and Secure Peer-to-Peer File Sharing in the Internet of Everything (IoE)

Q2 Computer Science
Walter Antonio Campos Ugaz, Maria del Rocío Hende Santolaya, Handry Martín Rodas Purizaga, Wesley Amado Salazar Bravo, Jorge Dávila, José Yudberto Vilca Ccolque, Doris Fúster Guillén
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Abstract

The Internet of Everything (IoE) is rapidly growing and utilized in various applications. However, the growing mobile traffic and services pose significant challenges in flexibility, movement, accessibility, and safety. The existing internet architecture and protocol must be improved to address the challenges. The article examines the attributes and prerequisites of forthcoming networking applications while emphasizing the constraints of conventional network architecture and protocols in fulfilling these needs. The research presents a new Hybrid Internet Architecture and Protocol (HIAP), the Self-Evolving and Transformative (SET) architecture. This architecture is designed to provide diverse control works and smart configuration options for different applications and networking conditions. This HIAP framework's primary emphasis lies in transport protocols and mechanisms for peer-to-peer file sharing. This study proposes implementing a deadline-aware multipath transport protocol within the framework of the Internet architecture with seamless support of real-time applications requiring strict adherence to latency demands. The HIAP framework incorporates evolvability, adaptable routing, and in-network cache mechanisms to enhance contentdelivery. To conduct a more comprehensive examination and conceptualize the peer-to-peer file-sharing system, the research created a pragmatic blueprint for setting the file transfer protocol on the HIAP. The study presented the groundwork for an Internet architecture better suited to the changing demands of the IoE and its various applications. This HIAP architecture aims to be more adaptable, efficient, and transformative. The present study involves a comparative analysis between the proposed research and current architecture. The findings provide evidence of the progress made by the suggested research in addressing the challenges related to multipath and safety in future architectural designs.
混合互联网架构和协议(HIAP):在万物互联(IoE)中实现无缝实时应用和安全点对点文件共享的自我演进和变革框架
万物互联(Internet of Everything, IoE)正在迅速发展并被广泛应用。然而,不断增长的移动流量和服务在灵活性、移动性、可达性和安全性方面提出了重大挑战。必须改进现有的互联网架构和协议,以应对这些挑战。本文研究了即将到来的网络应用程序的属性和先决条件,同时强调了传统网络体系结构和协议在满足这些需求方面的限制。该研究提出了一种新的混合互联网体系结构和协议(HIAP),即自进化和转换(SET)体系结构。该架构旨在为不同的应用程序和网络条件提供不同的控制工作和智能配置选项。这个HIAP框架的主要重点在于传输协议和对等文件共享机制。本研究提出在互联网架构框架内实现一种截止日期感知的多路径传输协议,无缝支持需要严格遵守延迟要求的实时应用程序。HIAP框架结合了可演化性、自适应路由和网络内缓存机制来增强内容传递。为了对点对点文件共享系统进行更全面的考察和概念化,本研究为在HIAP上设置文件传输协议创建了一个实用的蓝图。该研究为更好地适应物联网及其各种应用不断变化的需求的互联网体系结构提供了基础。这种HIAP体系结构旨在提高适应性、效率和变革性。目前的研究包括对拟议研究和当前建筑之间的比较分析。研究结果表明,在解决未来建筑设计中与多路径和安全相关的挑战方面,建议的研究取得了进展。
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
Journal of Internet Services and Information Security
Journal of Internet Services and Information Security Computer Science-Computer Science (miscellaneous)
CiteScore
3.90
自引率
0.00%
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0
审稿时长
8 weeks
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