Browse > Article
http://dx.doi.org/10.15207/JKCS.2019.10.11.047

Smart Factory Safety Management System using Bluetooth  

Jeong, Pil-Seong (Dept. of Information Technology Communication, Myongji College)
Cho, Yang-Hyun (Division of Computer & Mechatronics Engineering, Sahmyook University)
Publication Information
Journal of the Korea Convergence Society / v.10, no.11, 2019 , pp. 47-53 More about this Journal
Abstract
Safety accidents at industrial sites can occur anytime, anywhere. Recently, research on the industrial safety management system based on the IoT has been actively conducted. However, most of the studies are studies of actions after safety accidents or simply monitoring. In this paper, the safety equipment was introduced before safety accidents occurred, and the subjects could be managed not only by workers but also by visitors. Also, it implements a system to prevent the accident by detecting the user's motion and situation periodically before a safety accident occurs. The implemented system is a system that attaches the device for safety management to the hard hat and can identify the safety situation by using the Bluetooth beacon device attached to the user's smartphone and the industrial site.
Keywords
Smart Factory; User Safety Management; Safety Management System; Bluetooth; Internet of Things;
Citations & Related Records
Times Cited By KSCI : 1  (Citation Analysis)
연도 인용수 순위
1 B. J. Choi. (2019). A study on improvement of the Basic Occupational Safety and Health Training for the Construction Industry on The Occupation safety and health acts, Korean Social Security Law Association, 8(1), 161-191.
2 Korea Occupational safety & health agency. (2018). Industrial accident statistics. KOSHA [Omline]. http://www.kosha.or.kr
3 D. S. Kim, B. J. Kim & Y. S. Shin. (2019). A Convergent Analysis of the Risk Factors of Falling Accidents in Domestic Construction Sites Using IPA Technique, The Korean Society of Science & Art, 37(3), 31-44. DOI : 10.17548/ksaf.2019.06.30.31
4 D. H. Cho, J. E. Ju & I. H. Yu. (2018). IoT Industry in Seoul: Potentials and Strategies, The Seoul Institute, 1-151.
5 S. Y. Lee. (2016). Internet of Things Trend for Smart Factory, The Magazine of the IEEE, 43(6), 25-30.
6 J. H. Gu, H. H. Lee, K. S. Lee & M. G. Chun. (2018). Safety Helmet Capable of Indicating the Worker's Risk Indices, The Transaction of The Korean Institute of Electrical Engineers, 67(2), 106-111.
7 S. Y. Lee. (2016). The Policy and ICT Trend for Smart Factory, The Magazine of the IEEE, 45(6), 31-34.
8 E. Y. Kim & M. S. Park. (2018). A Study on the Limits of Manufacturing Innovation and Policy Direction of SMEs in the 4th Industrial Revolution : Focusing on the Limitations and Examples of Pohang SMEs Smart Factory Introduction, Journal of Science & Technology Studies, 18(2), 269-306.
9 H. J. Kang. (2017). Smart Disaster Safety Management System for Social Security, Journal of Digital Contents Society, 18(1), 225-229. DOI : 10.9728/dcs.2017.18.1.225   DOI
10 H. J. Kim. (2017). Using the BeaconSensor and Smartphone Safety Management Implementation Service, The Society of Convergence Knowledge Transactions, 5(1), 25-31.
11 Apache Cordova. (2019). Cordova Documentation. Cordova [Online]. https://cordova.apache.org/docs/en/latest/
12 Adobe Phonegap. (2019). PhoneGap Documentation. Adobe [Online]. http://docs.phonegap.com/
13 Firebase. (2019). Firebase Cloud Messaging Guide. Google [Online]. https://firebase.google.com/docs/cloud-messaging/?hl=ko
14 Bluetooth. (2019). Bluetooth Resources. Bluetooth SIG [Online]. https://www.bluetooth.com/bluetooth-resources/?types=paper
15 P. S. Jeong & Y. H. Cho. (2017). Smartphone User Authentication Algorithm based on Mutual Cooperation in Mobile Environment, Journal of the Korea Institute of Information and Communication Engineering, 21(7), 1393-1400.   DOI