Litcius/Paper detail

Blockchain-enabled digital twin collaboration platform for heterogeneous socialized manufacturing resource management

Ming Li, Yelin Fu, Qiqi Chen, Ting Qu

2021International Journal of Production Research73 citationsDOI

Abstract

Social manufacturing is conceptualised as a new type of networked manufacturing paradigm that supports the organisation of socialised manufacturing resources (SMRs) to satisfy the growth of personalised demands on crowd intelligence in a timely manner when co-creating open architecture products. The high participation of each stakeholder in this type of product production places a higher requirement on sufficient collaboration among social, cyber and physical spaces. However, under a decentralised social manufacturing network, the management of SMRs has encountered some real-life challenges in terms of their distributed and heterogeneous features. Hence, this paper proposes a blockchain-enabled digital twin collaboration platform (BcDTCP) as an integrated solution to address these challenges. A hybrid domain-driven design method is presented to design and implement business-knowledge driven systems. To address the heterogeneity of SMRs, a ubiquitous object structure is designed to flexibly adjust the functionality of the digital twin. Blockchain is introduced to construct a peer-to-peer network to organise the SMRs in a decentralised manner. Additionally, a timed coloured Petri net-based workflow is adopted to formulise the collaboration logic into a smart contract executed on the blockchain. Finally, a demonstrative case study is conducted to verify and evaluate the proposed BcDTCP under a 3D printing scenario.

Topics & Concepts

Computer scienceWorkflowDistributed manufacturingKnowledge managementArchitectureProcess managementBlockchainResource (disambiguation)Software engineeringEngineeringManufacturing engineeringComputer securityVisual artsArtDatabaseComputer networkDigital Transformation in IndustryBlockchain Technology Applications and SecurityAdditive Manufacturing and 3D Printing Technologies