KRanTi: Blockchain‐based farmer's credit scheme for agriculture‐food supply chain

The advent of agro‐industrialization has helped the agricultural food supply chain (AFSC) in introducing ease and innovation to other facets. In addition, Blockchain (BC) technology is revolutionizing each distributed data‐related application by adding authentication and trust among the system'...

Ausführliche Beschreibung

Gespeichert in:
Bibliographische Detailangaben
Veröffentlicht in:Transactions on emerging telecommunications technologies 2024-04, Vol.35 (4), p.n/a
Hauptverfasser: Patel, Nirav, Shukla, Arpit, Tanwar, Sudeep, Singh, Dhananjay
Format: Artikel
Sprache:eng
Online-Zugang:Volltext
Tags: Tag hinzufügen
Keine Tags, Fügen Sie den ersten Tag hinzu!
Beschreibung
Zusammenfassung:The advent of agro‐industrialization has helped the agricultural food supply chain (AFSC) in introducing ease and innovation to other facets. In addition, Blockchain (BC) technology is revolutionizing each distributed data‐related application by adding authentication and trust among the system's stakeholders. Inspired by the above‐mentioned argument, this article proposes a system, KRanTi, to promote the supply chain of agricultural food by BC embedding across the 5G network. The 5G network upgrades the data connectivity by enhancing network infrastructure efficiency. In KRanTi, we present an efficient credit system that enables associated farmers to purchase the requisite agricultural raw product of higher quality without the pressure of instant payment. A score‐based farm‐food quality assurance system is then proposed, which guarantees optimal quality grading. Trust, transparency, and traceability are preserved through the implementation of Smart Contracts (SC) distributed across public Ethereum BC. The cost‐effective off‐line data storage service in AFSC is offered through the use of the Inter‐Planetary File System (IPFS), a shared storage system to hold all data from stakeholders. Results show that the efficiency of the proposed scheme KRanTi is improved compared with traditional schemes with metrics such as less than 1 millisecond latency with 99.99% reliability compared with LTE with 5G, scalability, packet failure ratio, BC performance, cost‐quality ratio, and data storage contrast. Automated credit‐based payment system is designed, an Ethereum‐BC‐based SCs are developed for the secure payment system, and IPFS protocol based off‐chain storage is used for optimum costing and bandwidth utilization. KRanTi is compared with traditional systems concerning parameters such as latency, identity privacy‐preservation, scalability, and data storage cost.
ISSN:2161-3915
2161-3915
DOI:10.1002/ett.4286