Close Contact Tracing and Risky Area Identification Using Alpha Shape Algorithm and Binary Contact Detection Model Based on Bluetooth 5.1

Close Contact Tracing and Risky Area Identification Using Alpha Shape Algorithm and Binary Contact Detection Model Based on Bluetooth 5.1

This study presents a novel approach to managing disease outbreaks on cruise ships by integrating Bluetooth 5.1 technology, a Binary Contact Detection Model, and an alpha shape algorithm. By harnessing the precise data capture capabilities of Bluetooth 5.1, this study accurately tracks interpersonal...

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Bibliographic Details
Main Authors: Qianfeng Lin, Jooyoung Son
Format: Article
Language:English
Published: Galenos Publishing House 2024-12-01
Series:Journal of Eta Maritime Science
Subjects:
bluetooth 5.1 technology
binary contact detection model
alpha shape algorithm
cruise ship disease management
Online Access:https://jag.journalagent.com/z4/download_fulltext.asp?pdir=jems&un=JEMS-09216
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Summary:This study presents a novel approach to managing disease outbreaks on cruise ships by integrating Bluetooth 5.1 technology, a Binary Contact Detection Model, and an alpha shape algorithm. By harnessing the precise data capture capabilities of Bluetooth 5.1, this study accurately tracks interpersonal interactions and delineated high-risk areas, effectively enhancing close contact tracing and disease surveillance efforts. The Binary Contact Detection Model utilizes In-phase (I) and Quadrature (Q) data to identify close contacts with high accuracy, while the alpha shape algorithm helps in mapping out areas most susceptible to disease transmission. The combined use of these technologies represents a significant advancement in public health surveillance, offering a method to enhance safety and mitigate the spread of infections on cruise ships.
ISSN:2148-9386

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