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Main Authors: Sohani, Sadegh, Shahryari, Maliheh, Ghazi, Salar, Allahbakhsh, Mohammad, Amintoosi, Haleh, Benatallah, Boualem
Format: Preprint
Published: 2025
Subjects:
Online Access:https://arxiv.org/abs/2507.20265
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author Sohani, Sadegh
Shahryari, Maliheh
Ghazi, Salar
Allahbakhsh, Mohammad
Amintoosi, Haleh
Benatallah, Boualem
author_facet Sohani, Sadegh
Shahryari, Maliheh
Ghazi, Salar
Allahbakhsh, Mohammad
Amintoosi, Haleh
Benatallah, Boualem
contents Collaborative content generation (CCG) enables collective creation of artifacts like scientific articles. Quality is a paramount concern in CCG, and a multitude of methods have been proposed to evaluate the quality of artifacts. Nevertheless, the majority of these methods are reliant on centralized architectures, which present challenges pertaining to security, privacy, and availability. Blockchain technology proffers a potential resolution to these challenges, by furnishing a decentralized and immutable ledger of quality scores. In this manuscript, we introduce a blockchain-based quality control model for CCG that uses a semi-iterative algorithm to interdependently compute quality scores of artifacts and reputation of nodes. Our model addresses critical challenges in academic informetrics, such as citation manipulation, transparency in collaborative scholarship, and decentralized trust in metric computation. Our model also exhibits sensitivity to processing latency, rendering it more agile in the presence of delays. Our model's quality scores, evaluated against PageRank and HITS baselines, show comparable performance, with additional assessments of throughput, latency, and robustness against malicious nodes confirming its reliability. A theoretical comparison with recent studies validates its feasibility for real world informetric application.
format Preprint
id arxiv_https___arxiv_org_abs_2507_20265
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle A Blockchain-Based Quality Control Model for Online Collaboration Systems
Sohani, Sadegh
Shahryari, Maliheh
Ghazi, Salar
Allahbakhsh, Mohammad
Amintoosi, Haleh
Benatallah, Boualem
Social and Information Networks
H.3.1; H.3.5
Collaborative content generation (CCG) enables collective creation of artifacts like scientific articles. Quality is a paramount concern in CCG, and a multitude of methods have been proposed to evaluate the quality of artifacts. Nevertheless, the majority of these methods are reliant on centralized architectures, which present challenges pertaining to security, privacy, and availability. Blockchain technology proffers a potential resolution to these challenges, by furnishing a decentralized and immutable ledger of quality scores. In this manuscript, we introduce a blockchain-based quality control model for CCG that uses a semi-iterative algorithm to interdependently compute quality scores of artifacts and reputation of nodes. Our model addresses critical challenges in academic informetrics, such as citation manipulation, transparency in collaborative scholarship, and decentralized trust in metric computation. Our model also exhibits sensitivity to processing latency, rendering it more agile in the presence of delays. Our model's quality scores, evaluated against PageRank and HITS baselines, show comparable performance, with additional assessments of throughput, latency, and robustness against malicious nodes confirming its reliability. A theoretical comparison with recent studies validates its feasibility for real world informetric application.
title A Blockchain-Based Quality Control Model for Online Collaboration Systems
topic Social and Information Networks
H.3.1; H.3.5
url https://arxiv.org/abs/2507.20265