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Simulation Modeling of An IoT Based Cold Chain Logistics Management System

Year 2019, , 89 - 100, 29.08.2019
https://doi.org/10.35377/saucis.02.02.598963

Abstract

The dramatic growth of the world economy has been accelerated the supply chain industry which demands logistics service to be agile, flexible and responsive. Internet technology is quite successful in transferring information between customer and logistics provider. However, the existing gap between goods flow and information flow in logistic service has created a problem in getting real-time information about temperature-sensitive items, which makes logistics management more challenging for decision-makers. Internet of Things technology seems a promising solution for monitoring, managing, and decision making in cold chain industries. This study proposes an Internet of Things based cold chain logistics that help to enhance the decision support of all actors through managing, monitoring the real-time ambient temperature of the cold chain and predicting the shelf life of temperature-sensitive products. In this preliminary study, real-time data of ambient parameters are gathered using IEEE 802.15.4 based wireless sensor networks and transferred to the remote server through a gateway so that the shelf life of the products can be predicted by the decision support system. Radio Frequency Identification (RFID) is also modeled for further considerations related to the identification issue of perishable products inside the cold chain.

Supporting Institution

SRPC (BAPK) Unit of Sakarya University

Project Number

2013-12-10-004

References

  • S. Mejjaoulia and R. F. Babiceanu, “RFID-wireless sensor networks integration: Decision models and optimization of logistics systems operations,” Journal of Manufacturing Systems, vol. 35, pp. 234-245, 2015.
  • Food wastage footprint: Impacts on Natural Resources, 2013. [Online]. Available: http://www.fao.org/docrep/018/i3347e/i3347e.pdf. [Accessed: 2019].
  • Cost-Effective, Real-Time System to Tackle $35 Billion Annual Waste in U.S. Perishable Goods, 2006. [Online]. Available: http://www.prnewswire.com/news-releases/cost-effective-real-time-system-to-tackle-35-billion-annual-waste-in-us-perishable-goods-56420232.html. [Accessed: 2017].
  • J. C. Park, “Mobile RFID reader-initiated LLRP connection,” IEEE Int. Conf. Comput. Convergence Technol, pp. 1205-1209, 2012.
  • F. Li and Z. Chen, “Brief analysis of application of RFID in pharmaceutical cold-chain temperature monitoring system,” Proceedings 2011 International Conference on Transportation, Mechanical, and Electrical Engineering (TMEE), pp. 2418–2420, 2011.
  • H. Ding, R. Li, S. Li, J. Han and J. Zhao, “MISS: Multi-dimensional Information Sensing Surveillance for Cold Chain Logistics,” IEEE 10th International Conference on Mobile Ad-Hoc and Sensor Systems, pp. 519-523, 2013.
  • R. Porkodi and V. Bhuvaneswari, “The Internet of Things (IoT) Applications and Communication Enabling Technology Standards: An Overview,” 2014 International Conference on Intelligent Computing Applications, pp. 324-329, 2014.
  • Internet of Things European Research Cluster, “The Internet of Things,” New Horizons, 2012.
  • B. Yan and D. Lee Lee, “Application of RFID in cold chain temperature monitoring system,” ISECS International Colloquium on Computing, Communication, Control, and Management, pp. 258-261. 2009.
  • J. P. Rodrigue and T. Notteboom “The Cold Chain and its Logistics,” The Geography of Transport Systems, 2017. [Online]. Available: https://people.hofstra.edu /geotrans/eng/ch5en/appl5en /ch5a5en.html. [Accessed: July 2019].
  • Outlook on the Logistics & Supply Chain Industry. World Economic Forum, 2013.
  • S. Nechifor, A. Petrescu, D. Damian, D. Puiu and B. Târnaucă, “Predictive analytics based on CEP for logistic of sensitive goods,” International Conference on Optimization of Electrical and Electronic Equipment (OPTIM), pp. 817-822, 2014.
  • A. Al-Fuqaha, M. Guizani, M. Mohammadi, M. Aledhari and M. Ayyash, “Internet of Things: A Survey on Enabling Technologies, Protocols, and Applications,” IEEE Communications Surveys & Tutorials, vol. 17, pp. 2347-2376, 2015.
  • J. Banks, M. A. Pachano, L. G. Thompson and D. Hanny, “RFID Applied,” John Wiley & Sons Inc. 2007.
  • EPC™ Radio-Frequency Identity Protocols Generation-2 UHF RFID, GS1 EPCglobal Inc., 2013.
  • A. Van Nieuwenhuyse, A. Koubaa and M. Alves, “On the use of the ZigBee protocol for Wireless Sensor Networks,” IPP-HURRAY Research Group, 2006.
  • M. A. V. Boekel, “Kinetic Modeling of Food Quality : A Critical Review,” Comprehensive Reviews in Food Science and Food Safety, vol. 7(1), pp. 144–158, 2008.
  • T. P. Labuza, “Application of chemical kinetics to deterioration of foods,” J. Chem. Educ, vol. 61(4), pp. 348, 1984.

IoT Tabanlı Soğuk Zincir Lojistik Yönetim Sisteminin Benzetim Modellemesi

Year 2019, , 89 - 100, 29.08.2019
https://doi.org/10.35377/saucis.02.02.598963

Abstract

Dünya ekonomisinde görülen çarpıcı büyüme, lojistik hizmetin
çevik, esnek ve duyarlı olmasını isteyen tedarik zinciri endüstrisinide
hızlandırmaktadır. İnternet teknolojileri, müşteri ve lojistik sağlayıcı
arasındaki bilgi aktarımı konusunda oldukça başarılıdırlar. Bununla birlikte,
lojistik hizmetindeki mal akışı ile bilgi akışı arasındaki mevcut boşluk,
sıcaklığa duyarlı ürünler hakkında gerçek zamanlı bilgi edinme konusunda bir
sorun teşkil etmektedir ve bu da lojistik yönetimini karar vericiler açısından
daha zorlu hale getirmektedir. Nesnelerin İnterneti teknolojisi, soğuk zincir
endüstrisinde ortam görüntüleme, yönetim ve karar alma süreçleri açısından umut
verici bir çözüm gibi görünmektedir. Bu çalışma, soğuk zincirin gerçek zamanlı
ortam sıcaklığını yöneterek, izleyerek ve sıcağa duyarlı ürünlerin raf ömrünü
tahmin ederek tüm aktörlerin karar desteğini geliştirmeye yardımcı olan
Nesnelerin İnterneti tabanlı bir soğuk zincir lojistiği önermektedir. Bu ön
çalışmada, ortam parametrelerinin gerçek zamanlı verileri IEEE 802.15.4 tabanlı
kablosuz algılayıcı ağları kullanılarak toplanmış ve bir ağ geçidi üzerinden
uzak sunucuya aktarılarak ürünlerin raf ömrünün karar destek sistemi tarafından
tahmin edilebilmesi sağlanmıştır. Geliştirilen uygulama çerisinde, soğuk
zincirde bulunan bozulabilir ürünlerin tanımlanmasıyla amacıyla radyo frekanslı
tanımlama (RFID) sistemi de modellenmiştir.

Project Number

2013-12-10-004

References

  • S. Mejjaoulia and R. F. Babiceanu, “RFID-wireless sensor networks integration: Decision models and optimization of logistics systems operations,” Journal of Manufacturing Systems, vol. 35, pp. 234-245, 2015.
  • Food wastage footprint: Impacts on Natural Resources, 2013. [Online]. Available: http://www.fao.org/docrep/018/i3347e/i3347e.pdf. [Accessed: 2019].
  • Cost-Effective, Real-Time System to Tackle $35 Billion Annual Waste in U.S. Perishable Goods, 2006. [Online]. Available: http://www.prnewswire.com/news-releases/cost-effective-real-time-system-to-tackle-35-billion-annual-waste-in-us-perishable-goods-56420232.html. [Accessed: 2017].
  • J. C. Park, “Mobile RFID reader-initiated LLRP connection,” IEEE Int. Conf. Comput. Convergence Technol, pp. 1205-1209, 2012.
  • F. Li and Z. Chen, “Brief analysis of application of RFID in pharmaceutical cold-chain temperature monitoring system,” Proceedings 2011 International Conference on Transportation, Mechanical, and Electrical Engineering (TMEE), pp. 2418–2420, 2011.
  • H. Ding, R. Li, S. Li, J. Han and J. Zhao, “MISS: Multi-dimensional Information Sensing Surveillance for Cold Chain Logistics,” IEEE 10th International Conference on Mobile Ad-Hoc and Sensor Systems, pp. 519-523, 2013.
  • R. Porkodi and V. Bhuvaneswari, “The Internet of Things (IoT) Applications and Communication Enabling Technology Standards: An Overview,” 2014 International Conference on Intelligent Computing Applications, pp. 324-329, 2014.
  • Internet of Things European Research Cluster, “The Internet of Things,” New Horizons, 2012.
  • B. Yan and D. Lee Lee, “Application of RFID in cold chain temperature monitoring system,” ISECS International Colloquium on Computing, Communication, Control, and Management, pp. 258-261. 2009.
  • J. P. Rodrigue and T. Notteboom “The Cold Chain and its Logistics,” The Geography of Transport Systems, 2017. [Online]. Available: https://people.hofstra.edu /geotrans/eng/ch5en/appl5en /ch5a5en.html. [Accessed: July 2019].
  • Outlook on the Logistics & Supply Chain Industry. World Economic Forum, 2013.
  • S. Nechifor, A. Petrescu, D. Damian, D. Puiu and B. Târnaucă, “Predictive analytics based on CEP for logistic of sensitive goods,” International Conference on Optimization of Electrical and Electronic Equipment (OPTIM), pp. 817-822, 2014.
  • A. Al-Fuqaha, M. Guizani, M. Mohammadi, M. Aledhari and M. Ayyash, “Internet of Things: A Survey on Enabling Technologies, Protocols, and Applications,” IEEE Communications Surveys & Tutorials, vol. 17, pp. 2347-2376, 2015.
  • J. Banks, M. A. Pachano, L. G. Thompson and D. Hanny, “RFID Applied,” John Wiley & Sons Inc. 2007.
  • EPC™ Radio-Frequency Identity Protocols Generation-2 UHF RFID, GS1 EPCglobal Inc., 2013.
  • A. Van Nieuwenhuyse, A. Koubaa and M. Alves, “On the use of the ZigBee protocol for Wireless Sensor Networks,” IPP-HURRAY Research Group, 2006.
  • M. A. V. Boekel, “Kinetic Modeling of Food Quality : A Critical Review,” Comprehensive Reviews in Food Science and Food Safety, vol. 7(1), pp. 144–158, 2008.
  • T. P. Labuza, “Application of chemical kinetics to deterioration of foods,” J. Chem. Educ, vol. 61(4), pp. 348, 1984.
There are 18 citations in total.

Details

Primary Language English
Subjects Communication and Media Studies
Journal Section Articles
Authors

Celal Çeken 0000-0002-6912-0057

Dini Abdurahman 0000-0002-6912-0057

Project Number 2013-12-10-004
Publication Date August 29, 2019
Submission Date July 30, 2019
Acceptance Date August 28, 2019
Published in Issue Year 2019

Cite

IEEE C. Çeken and D. Abdurahman, “Simulation Modeling of An IoT Based Cold Chain Logistics Management System”, SAUCIS, vol. 2, no. 2, pp. 89–100, 2019, doi: 10.35377/saucis.02.02.598963.

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