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Main
Inspiration
A digital twin replicates a physical entity created using real-time data, machine learning, and computational models. They are widely used across manufacturing, smart cities, and energy industries to simulate conditions, predict outcomes, and identify potential issues before they escalate. The development of a digital twin goes hand-in-hand with the life cycle of the physical asset, involving various stakeholders during the design, implementation, operation, and decommissioning stages. During these different phases, multiple stakeholders will interact with DT to update its services and use DT services. Current DT management has no proper ownership, governance, or transparency among stakeholders. Considering NFT's unique characteristics, it is one of the best candidates for solving these issues.
What it does
They are transparently tracking and holding accountable stakeholders for their actions in the ecosystem. The product owner will create a DT and pass it to stakeholders, who will be responsible for various product lifecycle phases. This way, everyone in the ecosystem can see who is accountable for asset performance.
How we built it
Current proof of concept used Flow. But in the next iteration, Chainlink functions will use to connect with other web2 services in the legacy industrial systems.
Challenges we ran into
Lack of previous knowledge about technology and running into some issues that made it hard to implement a web frontend for the application.
Accomplishments that we're proud of
I was busy with my PhD thesis, but I still produced something.
What we learned
I learned about these unique technologies and will use them for my PhD research implementation.
What's next for Digital Twin Passport NFT
Using Chainlink functions, integrate other Digital Twin architectural components in a more secure, trusted way.
Built With
- flow
- nft
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