An Intelligent Event-Driven Automation Framework for Decentralized Applications

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Nagipragalathan Nagimani; J. Lin Eby Chandra

An Intelligent Event-Driven Automation Framework for Decentralized Applications

Authors: Nagipragalathan Nagimani, J. Lin Eby Chandra

Unique Paper ID: 206157
Volume: 13
Issue: 2
PageNo: 486-494

Keywords: No-Code Development Web3 Blockchain Decentralized Applications Large Language Models AI Agents Visual Programming Smart Contracts Workflow Automation Composability.

Abstract:
Web3 gives people a way to own data, money, and digital assets without a central authority, but turning an idea into a working decentralized application is still out of reach for almost everyone. It normally takes smart contract programming, careful key handling, low level calls to blockchain nodes, and a separately built web interface. The result is that the space of useful Web3 ideas is far larger than the small group of engineers able to build them. This paper proposes AgentFlow Web3, a no-code and AI-assisted way to compose, run, and host decentralized applications. The core idea is simple: make every on chain action a building block that anyone can drop onto a visual canvas, wire together with logic and artificial intelligence, attach to a drag and drop interface, and publish at a shareable link, all without writing code. Because the building blocks are general, the same canvas can express a very wide range of applications, from decentralized finance automation and trading to non fungible token workflows, decentralized organizations, payments, on chain monitoring, identity, and autonomous agents that read and act on chain state. We describe the concept, a conceptual architecture, a taxonomy of composable primitives, and a broad set of application domains, and we report a proof of concept that implements the paradigm and runs real on chain workflows. Measured results show that the orchestration layer adds only a few milliseconds and that end to end time is set by the blockchain endpoint rather than by the platform, which supports the feasibility of the approach.

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Copyright & License

Copyright © 2026 Authors retain the copyright of this article. This article is an open access article distributed under the Creative Commons Attribution License which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited.

BibTeX

@article{206157,
        author = {Nagipragalathan Nagimani and J. Lin Eby Chandra},
        title = {An Intelligent Event-Driven Automation Framework for Decentralized Applications},
        journal = {International Journal of Innovative Research in Technology},
        year = {2026},
        volume = {13},
        number = {2},
        pages = {486-494},
        issn = {2349-6002},
        url = {https://ijirt.org/article?manuscript=206157},
        abstract = {Web3 gives people a way to own data, money, and digital assets without a central authority, but turning an idea into a working decentralized application is still out of reach for almost everyone. It normally takes smart contract programming, careful key handling, low level calls to blockchain nodes, and a separately built web interface. The result is that the space of useful Web3 ideas is far larger than the small group of engineers able to build them. This paper proposes AgentFlow Web3, a no-code and AI-assisted way to compose, run, and host decentralized applications. The core idea is simple: make every on chain action a building block that anyone can drop onto a visual canvas, wire together with logic and artificial intelligence, attach to a drag and drop interface, and publish at a shareable link, all without writing code. Because the building blocks are general, the same canvas can express a very wide range of applications, from decentralized finance automation and trading to non fungible token workflows, decentralized organizations, payments, on chain monitoring, identity, and autonomous agents that read and act on chain state. We describe the concept, a conceptual architecture, a taxonomy of composable primitives, and a broad set of application domains, and we report a proof of concept that implements the paradigm and runs real on chain workflows. Measured results show that the orchestration layer adds only a few milliseconds and that end to end time is set by the blockchain endpoint rather than by the platform, which supports the feasibility of the approach.},
        keywords = {No-Code Development, Web3, Blockchain, Decentralized Applications, Large Language Models, AI Agents, Visual Programming, Smart Contracts, Workflow Automation, Composability.},
        month = {July},
        }

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Cite This Article

Nagimani, N., & Chandra, J. L. E. (2026). An Intelligent Event-Driven Automation Framework for Decentralized Applications. International Journal of Innovative Research in Technology (IJIRT), 13(2), 486–494.

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8.412 (Year 2026)

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