A Trustworthiness-Aware Spatial Task Allocation using a Fuzzy-based Trust and Reputation System Approach

Rahman, Md Mujibur and Abdullah, Nor Aniza (2023) A Trustworthiness-Aware Spatial Task Allocation using a Fuzzy-based Trust and Reputation System Approach. Expert Systems with Applications, 211. ISSN 0957-4174, DOI https://doi.org/10.1016/j.eswa.2022.118592.

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Abstract

Unlike crowdsourcing, Spatial Crowdsourcing (SC) requires workers to travel to a specific physical location to accomplish a task. Due to its open concept, the platform accepts any interested individual as workers or task requesters, including those who may be unreliable and untrustworthy. Deploying untrustworthy workers in spatial tasks can negatively impact the quality of the completed tasks, thus threatening the sustainability of the SC platform. Recent research has been carried out to evaluate workers' trustworthiness based on the Trust and Reputation (TR) system. Current TR system approaches for evaluating workers' trustworthiness are mostly relying on a single trust or reputation factor, and the decisions are mainly binary. This binary representation of trustworthiness is considerably rigid and may cause severe repercussions like, an untrustworthy worker who could be the victim of partial ratings may end up not getting any kind of spatial tasks from the system, or a trustworthy worker who may have malicious intention may be allocated a spatial task. To address these limi-tations, we propose a novel framework that allocates every spatial task according to a workers' degree of perceived trustworthiness computed based on multi-criteria trust and reputation factors using a Mamdani fuzzy inference system. Our work considers historical ratings to calculate reputation value, applies sentiment analysis to infer trust value, implements Mamdani fuzzy inference to determine trustworthiness degree, and introduces the concept of referral to mitigate worker cold-start problems in spatial crowdsourcing. Our experimental findings on the Yelp real-world datasets demonstrate the reliability of the proposed framework to allocate every spatial task of various types to the most trustworthy workers from huge crowds of available workers. When evaluated against other baseline approaches, our approach achieves greater accuracy in allocating the right tasks to the most trustworthy workers.

Item Type: Article
Funders: UNSPECIFIED
Uncontrolled Keywords: Spatial Crowdsourcing; Multi-criteria factor; Trust and reputation system; Fuzzy inference system; Trustworthiness evaluation; Sentiment analysis
Subjects: Q Science > QA Mathematics > QA75 Electronic computers. Computer science
Q Science > QA Mathematics > QA76 Computer software
Divisions: Faculty of Computer Science & Information Technology
Faculty of Computer Science & Information Technology > Department of Computer System & Technology
Depositing User: Ms Zaharah Ramly
Date Deposited: 04 Nov 2024 02:17
Last Modified: 04 Nov 2024 02:17
URI: http://eprints.um.edu.my/id/eprint/39464

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