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QUEST: Quality-informed Multi-agent Dispatching System for Optimal Mobile Crowdsensing

Zuxin Li, Fanhang Man, Xuecheng Chen, Susu Xu, Fan Dang, Xiao–Ping Zhang, Xinlei Chen

202413 citationsDOI

Abstract

We address the challenges in achieving optimal Quality of Information (QoI) for non-dedicated vehicular Mobile Crowdsensing (MCS) systems, by utilizing vehicles not originally designed for sensing purposes to provide real-time data while moving around the city. These challenges include the coupled sensing coverage and sensing reliability, as well as the uncertainty and time-varying vehicle status. To tackle these issues, we propose QUEST, a QUality-informed multi-agEnt diSpaTching system, that ensures high sensing coverage and sensing reliability in non-dedicated vehicular MCS. QUEST optimizes QoI by introducing a novel metric called ASQ (aggregated sensing quality), which considers both sensing coverage and sensing reliability jointly. Additionally, we design a mutual-aided truth discovery dispatching method to estimate sensing reliability and improve ASQ under uncertain vehicle statuses. Real-world data from our deployed MCS system in a metropolis is used for evaluation, demonstrating that QUEST achieves up to 26% higher ASQ improvement, leading to a reduction of reconstruction map errors by 32-65% for different reconstruction algorithms.

Topics & Concepts

CrowdsensingComputer scienceQuality (philosophy)Real-time computingComputer securityEpistemologyPhilosophyMobile Crowdsensing and CrowdsourcingEvacuation and Crowd DynamicsHuman Mobility and Location-Based Analysis
QUEST: Quality-informed Multi-agent Dispatching System for Optimal Mobile Crowdsensing | Litcius