Sabah Suhail scite author profile

Industrial processes rely on sensory data for critical decision-making processes. Extracting actionable insights from the collected data calls for an infrastructure that can ensure the trustworthiness of data. To this end, we envision a blockchainbased framework for the Industrial Internet of Things (IIoT) to address the issues of data management and security. Once the data collected from trustworthy sources are recorded in the blockchain, product lifecycle events can be fed into datadriven systems for process monitoring, diagnostics, and optimized control. In this regard, we leverage Digital Twins (DTs) that can draw intelligent conclusions from data by identifying the faults and recommending precautionary measures ahead of critical events. Furthermore, we discuss the integration of DTs and blockchain to target key challenges of disparate data repositories, untrustworthy data dissemination, and fault diagnosis. Finally, we identify outstanding challenges faced by the IIoT and future research directions while leveraging blockchain and DTs.

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τ -safety: A privacy model for sequential publication with arbitrary updates

Anjum

Raschia

Gelgon

et al. 2017

Computers & Security

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Trustworthy data: A survey, taxonomy and future trends of secure provenance schemes

Zafar

Khan

Suhail

et al. 2017

Journal of Network and Computer Applications

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On the Role of Hash-Based Signatures in Quantum-Safe Internet of Things: Current Solutions and Future Directions

Suhail

Hussain²,

Khan³

et al. 2021

IEEE Internet Things J.

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Blockchain-Based Digital Twins: Research Trends, Issues, and Future Challenges

et al. 2022

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Industrial processes rely on sensory data for decision-making processes, risk assessment, and performance evaluation. Extracting actionable insights from the collected data calls for an infrastructure that can ensure the dissemination of trustworthy data. For the physical data to be trustworthy, it needs to be cross-validated through multiple sensor sources with overlapping fields of view. Cross-validated data can then be stored on the blockchain, to maintain its integrity and trustworthiness. Once trustworthy data is recorded on the blockchain, product lifecycle events can be fed into data-driven systems for process monitoring, diagnostics, and optimized control. In this regard, Digital Twins (DTs) can be leveraged to draw intelligent conclusions from data by identifying the faults and recommending precautionary measures ahead of critical events. Empowering DTs with blockchain in industrial use-cases targets key challenges of disparate data repositories, untrustworthy data dissemination, and the need for predictive maintenance. In this survey, while highlighting the key benefits of using blockchain-based DTs, we present a comprehensive review of the state-of-the-art research results for blockchain-based DTs. Based on the current research trends, we discuss a trustworthy blockchain-based DTs framework. We also highlight the role of Artificial Intelligence (AI) in blockchain-based DTs. Furthermore, we discuss the current and future research and deployment challenges of blockchain-supported DTs that require further investigation.

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Sabah Suhail

Trustworthy Digital Twins in the Industrial Internet of Things With Blockchain

τ -safety: A privacy model for sequential publication with arbitrary updates

Trustworthy data: A survey, taxonomy and future trends of secure provenance schemes

On the Role of Hash-Based Signatures in Quantum-Safe Internet of Things: Current Solutions and Future Directions

Blockchain-Based Digital Twins: Research Trends, Issues, and Future Challenges

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