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Main Authors: Romão, André, Faria, Francisco, Matos, João R., Nunes, Emanuel, Eisa, Samih, Pardal, Miguel L.
Format: Preprint
Published: 2026
Subjects:
Online Access:https://arxiv.org/abs/2603.26306
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author Romão, André
Faria, Francisco
Matos, João R.
Nunes, Emanuel
Eisa, Samih
Pardal, Miguel L.
author_facet Romão, André
Faria, Francisco
Matos, João R.
Nunes, Emanuel
Eisa, Samih
Pardal, Miguel L.
contents Enterprise adoption of permissioned blockchains remains limited due to the complexity and cost of integrating legacy systems. We present a modular adapter architecture that bridges enterprise applications with blockchain networks, designed to support small and medium-sized enterprises with limited technical resources. The architecture provides five key modules: (1) configurable data extractors supporting diverse interfaces such as APIs and file uploads, (2) data transformers that can convert to standard formats, (3) messaging middleware to ensure operations can tolerate lack of connectivity and traffic spikes, (4) blockchain loader to commit transactions to the blockchain, and (5) status visibility to collect and expose runtime metrics that support operational transparency. We validated the adapters through a pilot deployment in a real-world fruit supply chain, involving three distinct enterprises. The pilot achieved blockchain integration with minimal workflow disruption, demonstrating the usefulness of these adapters for practical interoperability of existing systems with the blockchain.
format Preprint
id arxiv_https___arxiv_org_abs_2603_26306
institution arXiv
publishDate 2026
record_format arxiv
spellingShingle Integration Adapter Architecture for Food Traceability Blockchain
Romão, André
Faria, Francisco
Matos, João R.
Nunes, Emanuel
Eisa, Samih
Pardal, Miguel L.
Computers and Society
Enterprise adoption of permissioned blockchains remains limited due to the complexity and cost of integrating legacy systems. We present a modular adapter architecture that bridges enterprise applications with blockchain networks, designed to support small and medium-sized enterprises with limited technical resources. The architecture provides five key modules: (1) configurable data extractors supporting diverse interfaces such as APIs and file uploads, (2) data transformers that can convert to standard formats, (3) messaging middleware to ensure operations can tolerate lack of connectivity and traffic spikes, (4) blockchain loader to commit transactions to the blockchain, and (5) status visibility to collect and expose runtime metrics that support operational transparency. We validated the adapters through a pilot deployment in a real-world fruit supply chain, involving three distinct enterprises. The pilot achieved blockchain integration with minimal workflow disruption, demonstrating the usefulness of these adapters for practical interoperability of existing systems with the blockchain.
title Integration Adapter Architecture for Food Traceability Blockchain
topic Computers and Society
url https://arxiv.org/abs/2603.26306