Share:


An RFID model for improving workers’ safety at the seaport in transitional environment

    Sanja Bauk Affiliation
    ; Anke Schmeink Affiliation
    ; Joan Colomer Affiliation

Abstract

The paper proposes a Radio Frequency IDentification (RFID) model for enhancing port workers’ safety with reference to the Port of Bar (Montenegro) as a developing seaport operating in a transitional environment. The paper also highlights the lack of appropriate Information and Communication Technology (ICT) solutions in some developing seaports, including safety-related ones. It emphasizes the importance of safety measures through the prism of reducing the number of accidents, and gives a review of some RFID safety solutions in the harsh environments. The main part of the paper deals with the RFID worker’s safety model proposed according to the Port of Bar’s individual needs. The model has been presented at a logic level, while some of the physical and link layers performances between the set of an active and several passive RFID devices embedded to the port workers’ Personal Protective Equipment (PPE) and the Ultra High Frequency (UHF) RFID readers located at the port perimeter, are simulated in Matlab and OMNeT++. The obtained results followed by discussions can be used as landmarks to the ports’ management in adapting this or a similar model for enhancing safety measures in the port and its promoting as a safety one at the maritime market.


First published online 24 October 2016

Keyword : seaport, workers’ safety, RFID, PPE, model

How to Cite
Bauk, S., Schmeink, A., & Colomer, J. (2018). An RFID model for improving workers’ safety at the seaport in transitional environment. Transport, 33(2), 353–363. https://doi.org/10.3846/16484142.2016.1233512
Published in Issue
Jan 26, 2018
Abstract Views
1732
PDF Downloads
1146
Creative Commons License

This work is licensed under a Creative Commons Attribution 4.0 International License.

References

Armstrong, S. 2013. 3 Things to Know About UHF RFID Tags. Available from Internet: http://blog.atlasrfidstore.com/basics-of-uhf-passive-rfid-tags

Avgerou, C. 2011. Discourses on innovation and development in information systems in developing countries research, in R. D. Galliers, W. L. Currie (Eds.). The Oxford Handbook of Management Information Systems: Critical Perspectives and New Directions, Chapter 25: 647–671. http://doi.org/10.1093/oxfordhb/9780199580583.003.0029

Axis. 2010. Vizag Seaport Goes High Tech with Axis Network Surveillance. 2 p. Axis Communications AB, Sweden. Available from Internet: http://www.axis.com/files/success_stories/ss_trn_vizag_seaport_40126_en_1007_lo.pdf

Barro-Torres, S.; Fernández-Caramés, T. M.; Pérez-Iglesias, H. J.;  Escudero,  C. J. 2012. Real-time personal protective equipment monitoring system, Computer Communications 36(1): 42–50. http://doi.org/10.1016/j.comcom.2012.01.005

Bauk, S.; Šekularac-Ivošević, S.; Jolić, N. 2015. Seaport positioning supported by the combination of some quantitative and qualitative approaches, Transport 30(4): 385–396. http://doi.org/10.3846/16484142.2013.815657

Beškovnik, B.; Twrdy, E. 2015. Developing regional approach for transport industry: the role of port system in the Balkans, Transport 30(4): 437–447. http://doi.org/10.3846/16484142.2014.938696

Bezic, H.; Tijan, E.; Aksentijevic, S. 2011. Port community systems – economic feasibility evaluation, Ekonomski vjesnik – Econviews: Review of Contemporary Business, Entrepreneurship and Economic Issues 24(2): 247–256.

Cairncross, F. 2001. The Death of Distance: How the Communications Revolution is Changing our Lives. Harvard Business Press Books. 336 p.

Cisco. 2015. Cisco Smart+Connected Communities. Cisco Systems, Inc. 5 p. Available from Internet: http://www.cisco.com/c/en/us/products/collateral/se/internet-of-everything/brochure-c02-736084.pdf

Darbra, R.-M.; Casal, J. 2004. Historical analysis of accidents in seaports, Safety Science 42(2): 85–98. http://doi.org/10.1016/S0925-7535(03)00002-X

Ecoport 8. 2013. ECOPORT 8 Project: Environmental Management of Transborder Corridor Ports. Code SEE/A/218/2.2/X. Available from Internet: http://www.ecoport8.eu

Ferrer, G.; Dew, N.; Apte, U. 2010. When is RFID right for your service?, International Journal of Production Economics 124(2): 414–425. http://doi.org/10.1016/j.ijpe.2009.12.004

Friedman, T. L. 2006. The World Is Flat: The Globalized World in the Twenty-first Century. Penguin Books. 593 p.

Harris, I.; Wang, Y.; Wang, H. 2015. ICT in multimodal transport and technological trends: unleashing potential for the future, International Journal of Production Economics 159: 88–103. http://doi.org/10.1016/j.ijpe.2014.09.005

Hixson, R. 2015. Radio frequencies keep Edmonton workers safe, Journal of Commerce, 16 July 2015. Available from Internet: http://journalofcommerce.com/OHS/News/2015/7/Radio-frequencies-keep-Edmonton-workers-safe-1008947W

IMO. 2015. IMO Profile: Overview. International Maritime Organization (IMO). Available from Internet: http://business.un.org/en/entities/13

Ivanović, Ž.; Bauk, S. 2014. Multiphase approach to developing model of logistics for coastal tourist destinations, Promet – Traffic&Transportation 26(5): 405–418. http://doi.org/10.7307/ptt.v26i5.1458

Jacobs, W. 2011. The Role of Port Infrastructure and Logistics in Global Networks. Netherlands. 5 p. Available from Internet: http://www.iss.nl/fileadmin/ASSETS/iss/Documents/DevISSues/Jacobs_WEB.pdf

Kapoor, G.; Zhou, W.; Piramuthu, S. 2009. Challenges associated with RFID tag implementations in supply chains, European Journal of Information Systems 18(6): 526–533. http://doi.org/10.1057/ejis.2009.41

Kathrein. 2015. RFID Technology from Kathrein Makes Traffic Light Smart. Kathrein-Werke KG. Available from Internet: http://www.kathrein.com/en/newsroom/news/announcement/news/rfid-technology-from-kathrein-makes-traffic-light-smart

Kelm, A.; Laußat, L.; Meins-Becker, A.; Platz, D.; Khazaee, M. J.; Costin, A. M.; Helmus, M.; Teizer, J. 2013. Mobile passive radio frequency identification (RFID) portal for automated and rapid control of personal protective equipment (PPE) on construction sites, Automation in Construction 36: 38–52. http://doi.org/10.1016/j.autcon.2013.08.009

Mahalik, N. P. (Ed.). 2007. Sensor Networks and Configuration: Fundamentals, Standards, Platforms, and Applications. Springer Berlin Heidelberg. 509 p. http://doi.org/10.1007/3-540-37366-7

Milestone. 2014. Seaport Surveillance Solutions: End-to-End Systems for Any Seaport Large or Small. 2 p. Milestone Systems A/S. Available from Internet: http://www.milestonesys.com/files/Verticals/Seaports/Seaports_vertical_flyer_ENG_web.pdf

Moxa Inc. 2008. Video Surveillance System for Seaport. Available from Internet: http://moxa.bossinfo.com.tw/newsletter/connection/2008/02/Video_surveillance_system.htm

Musu, C. 2015. Wearable Sensors Networks for Safety Applications in Industrial Scenarios: Doctoral Dissertation. University of Cagliari, Italy. 111 p. Available from Internet: http://veprints.unica.it/1115

Musu, C.; Popescu, V.; Giusto, D. 2014. Workplace safety monitoring using RFID sensors, in 2014 22nd Telecommunications Forum (TELFOR), 25–27 November 2014, Belgrade, Serbia, 656–659. http://doi.org/10.1109/TELFOR.2014.7034494

Ngai, E. W. T.; Moon, K. K. L.; Riggins, F. J.; Yi, C. Y. 2008. RFID research: an academic literature review (1995–2005) and future research directions, International Journal of Production Economics 112(2): 510–520. http://doi.org/10.1016/j.ijpe.2007.05.004

Notteboom, T. E. 2001. Spatial and functional integration of container port systems and hinterland networks in Europe, Land Access to Sea Ports 113: 5–55.

OpenSim Ltd. 2015. OMNeT++: Discrete Event Simulator. Available from Internet: https://omnetpp.org

Poole, I. 2015. IEEE 802.11af White-Fi Technology – an Overview of the IEEE 802.11af or White-Fi Proposal for Wi-Fi Using the TV White Spaces Using Cognitive Radio Technology. Available from Internet: http://www.radio-electronics.com/info/wireless/wi-fi/ieee-802-11af-white-fi-tv-space.php

POST. 2006. ICT in Developing Countries, Postnote No 261. Parliamentary Office of Science and Technology (POST), UK Parliament. 4 p. Available from Internet: http://www.parliament.uk/documents/post/postpn261.pdf

Roberts, B.; Gray, M. 2013. Improving pedestrian safety in container ports and terminals, Port Technology 59: 40–42.

Roztocki, N.; Weistroffer, H. R. 2015. Information and communication technology in transition economies: an assessment of research trends, Information Technology for Development 21(3): 330–364. http://doi.org/10.1080/02681102.2014.891498

SICK Pty Ltd. 2014. Anti-Collision Systems Ensure Safe Container-Terminal Operations. Available from Internet: http://www.safetysolutions.net.au/content/materials-handling/article/anti-collision-systems-ensure-safe-container-terminal-operations-703787960

Sigh, H.; Kumar, K.; Kaur, H. 2012. Intelligent traffic lights based on RFID, International Journal of Computing and Business Research 2012: 1–10. Available from Internet: http://www.researchmanuscripts.com/isociety2012/13.pdf

Siror, J. K.; Huanye, S.; Dong, W. 2011. RFID based model for an intelligent port, Computers in Industry 62(8–9): 795–810. http://doi.org/10.1016/j.compind.2011.08.004

Sole, M. 2014. Communication Technologies and Data Processing for Safety: Doctoral Dissertation. University of Cagliari, Italy. 110 p. Available from Internet: http://veprints.unica.it/927

Sole, M.; Musu, C.; Boi, F.; Giusto, D.; Popescu, V. 2013a. Control system for workplace safety in a cargo terminal, in IWCMC 2013: the 9th International Wireless Communications & Mobile Computing Conference, 1–5 July 2013, Cagliari, Sardinia, Italy, 1035–1039. http://doi.org/10.1109/IWCMC.2013.6583699

Sole, M.; Musu, C.; Boi, F.; Giusto, D.; Popescu, V. 2013b. RFID sensor network for workplace safety management, in 2013 IEEE 18th Conference on Emerging Technologies & Factory Automation (ETFA), 10–13 September 2013, Cagliari, Italy, 1–4. http://doi.org/10.1109/ETFA.2013.6648157

Swedberg, C. 2010. Active UHF RFID tags muster support for oil rigs, RFID Journal 2010: 1–2. Available from Internet: http://www.rfidjournal.com/articles/pdf?8000

TenEcoport. 2014. Feasibility Study for the Port of Bar. WP 5 – Act 5.2. Feasibility Studies for Port Operators. TEN ECOPORT project – Code SEE/D/0189/2.2/X. Project ‘Transnational ENhancement of ECOPORT8 Network’. Institute of Marine Biology (BIOKOTOR), University of Montenegro, 48 p. Available from Internet: http://www.tenecoport.eu/images/FeasibilityStudy1_Port_of_BAR.pdf

Tijan, E. 2012. ICT enablement of administrative processes in Croatian seaports, Proceedings of the Graduate Student Consortium – 25th Bled e-Conference 2012, 17–21 June 2012, Bled, Slovenia, 55–60.

Tijan, E.; Agatić, A.; Hlača, B. 2012. The necessity of port community system implementation in the Croatian seaports, Promet – Traffic&Transportation 24(4): 305–315. http://doi.org/10.7307/ptt.v24i4.444

UNEP; ITC; ICTSD. 2012. Trade and Environment Briefings: International Transport. United Nations Environment Programme (UNEP), International Trade Centre (ITC), International Centre for Trade and Sustainable Development (ICTSD). 6 p. Available from Internet: http://www.intracen.org/uploadedFiles/Policy%20Brief%205%20international-transport.pdf

Vermesan, O.; Gregersen, M.; Andersen, E., et al. 2010. Recommended Guidelines for Deployment of Radio Frequency Identification (RFID) in the Oil and Gas Industry. Norwegian Oil and Gas Association, Sandnes, Norway.

Vitić-Ćetković, A.; Bauk, S. 2014. E-services and positioning of passenger ports in the context of cruise tourism promotion, Promet – Traffic&Transportation 26(1): 83–93. http://doi.org/10.7307/ptt.v26i1.1282