A Distributed Cloud Architecture Based on General De Bruijn Overlay Network

Q2 Computer Science International Journal of Cloud Applications and Computing Pub Date : 2024-02-27 DOI:10.4018/ijcac.339892

Osama R. S. Ramadan, Mohamed Yasin I. Afifi, Ahmed Yahya

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Abstract

Distributed cloud systems enable the distribution of computing resources across various geographical locations. While offering benefits like accelerated content delivery, the scalability and coherence maintenance of these systems pose significant challenges. Recent studies reveal shortcomings in existing distributed system schemes to meet modern cloud application demands and maintain coherence among heterogeneous system elements. This paper proposes a service-oriented network architecture for distributed cloud computing networks. Using a De Bruijn network as a software-defined overlay network, the architecture ensures scalability and coherence. Through service-based addressing, requests are issued to designated service address bands, streamlining service discovery. The architecture's evaluation through extensive simulations showcases sustainable scalability and inherent load-balancing properties. The paper concludes with insights into future research directions, emphasizing the extension of the proposed architecture to emerging distributed cloud use cases and decentralized security.

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基于通用德布鲁因重叠网络的分布式云架构

分布式云系统能够在不同的地理位置分配计算资源。这些系统在提供加速内容交付等优势的同时，其可扩展性和一致性维护也带来了巨大挑战。最近的研究揭示了现有分布式系统方案在满足现代云应用需求和保持异构系统元素之间一致性方面存在的不足。本文为分布式云计算网络提出了一种面向服务的网络架构。该架构使用 De Bruijn 网络作为软件定义的覆盖网络，确保了可扩展性和一致性。通过基于服务的寻址，请求被发送到指定的服务地址带，从而简化了服务发现过程。通过大量模拟对该架构进行评估，展示了其可持续的可扩展性和固有的负载平衡特性。论文最后对未来的研究方向提出了见解，强调将所提出的架构扩展到新兴的分布式云使用案例和分散式安全。

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来源期刊

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

CiteScore

6.40

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0.00%

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