.

ISSN 2063-5346
For urgent queries please contact : +918130348310

IMPROVED NETWORK FRAMEWORK FOR CLOUD MANUFACTURING THROUGH BLOCKCHAIN TECHNOLOGY

Main Article Content

R. Yamini, S.Karunakaran, Sunil Kumar RM, Prathiba.L, Narender Chinthamu, Lakshmi B N, P Kiran Kumar
» doi: 10.31838/ecb/2023.12.s3.072

Abstract

The industrial sector has benefited greatly from modern, developing production methodologies including cloud systems, Internet of Things (IoT) enabled manufacturing, and service-oriented production, which has also transformed the commercial IT infrastructures. Nevertheless, the primary issue with centralized networked systems and 3rd parties trust management continues to plague all current paradigms. In short, the centralized network has experienced problems with privacy, reliability, profitability, and adaptability. To increase the safety and flexibility of Cloud Manufacturing (CM), the major goal of this study is to offer a decentralized peer-to-peer network model. The blockchain technology that the proposed system was built upon made it possible to create a decentralized peer-to-peer network that had high protection, stability, and well-organized cloud infrastructure. The five levels that make up the proposed architecture, known as the Blockchain Cloud Manufacturing (BCM) are the resources level, perception layer, production overlay, network level, and application layer. The idea of its design, safe information sharing, and region characterized are addressed and studied in this study. Additionally, the major components needed to achieve this proposed framework are outlined using an illustrative case study. A case study with 15 end customers, five network operators, and 32 cloud products is used to demonstrate the proposed framework. Utilizing both qualitative and statistical methodologies, the evaluation's findings demonstrate that the proposed approach can benefit CM in ways that go beyond its benefits for safety and sustainability.

Article Details