Tracking in product delivery using portable RFID with arduine

Authors

DOI:

https://doi.org/10.33448/rsd-v9i10.9298

Keywords:

Portable RFID; Product tracking; Arduino; Delivery tracking.

Abstract

This study aimed to develop a device for traceability of the goods delivery process, using radio frequency technology (RFID), which will inform the date, time and location where the goods are being delivered to the end customer. The methodology used consisted of three stages: 1) data collection through a portable collector along with RFID tags, 2) data processing by the microcontroller and 3) carrying out the consultation of the information contained in the tag through the communication between the RFID and the Arduino, whose product traceability was carried out through radio frequency sending information via GSM; while the materials used were 1 mega arduino board, 1 6m Neo GPS shield, 1 Sim 900 module, 1 RC522 RFID reader, 1 16x2 graphic LCD display and 1 keychain RFID tag. For testing the sending of date, time, product specifications and location information via SMS to the registered cell phone at the time of product delivery, operations were carried out in different locations with different dates and times and the messages were sent without fail. The results confirmed the display of the information “Data Collected Successfully” on the LCD display, after the reading of the LCD label by the collector. The proposed prototype proved to be effective, managing to control the delivery of low-cost goods through passive tag on a portable RFID reader.

References

Akram, S., & Siddiqui, D. A. (2019). Impact of Customer, Environment and Company Side Uncertainty and Risk on Logistical Performance: An Analysis on Pakistan Courier Industry. Global Disclosure of Economics and Business, 8(1), 17-32. DOI: 10.18034/gdeb.v8i1.95.

Bäumler, I., & Kotzab, H. (2020). Scenario-based development of intelligent transportation systems for road freight transport in Germany. In Elbert, R., Boltze, M., Friedrich, C., & Pfohl, H.-C. (Eds.) (2019). Urban freight transportation systems. New York: Elsevier. (pp. 183-202). DOI: 10.1016/B978-0-12-817362-6.00010-0.

Cavalcante, M. A., Tavolaro, C. R. C., & Molisani, E. (2011). Física com Arduíno para iniciantes. Revista Brasileira de Ensino de Física. 33(4), 45031-45039.

Dhatri, P.V.S.D., Pachiyannan, M., Rani, K.J.S., & Pravallika, G. (2019). A low-cost arduino based automatic irrigation system using soil moisture sensor: design and analysis. In 2019 2nd International Conference on Signal Processing and Communication (ICSPC), IEEE, (pp. 104-108). DOI: 10.1109/ICSPC46172.2019.8976483.

Elewe, A. M., & Zaboon, W. A. (2020). Real time RFID-based equipment for monitoring environmental railway systems. International Journal of Industrial Engineering, 11(1).

Evtodieva, T. E., Chernovа, D. V., Ivanova, N. V., & Wirth, J. (2020). The internet of things: possibilities of application in intelligent supply chain management. In Ashmarina, S., Mesquita, A., & Vochozka, M. (Eds.) Digital transformation of the economy: challenges, trends and new opportunities (pp. 395-403). Cham: Springer.

Godoy, P. V. C. (2011). Tecnologia RFID: uma proposta de sistematização na gestão hospitalar. (Unpublished undergraduation monography). Universidade de São Paulo, São Carlos, Brazil.

Guanxiang, Z., Liping, G., Maocai, X., & Yu, F. (2019, July). An intermodal network design of dangerous goods considering capacity limit of terminals. In 2019 16th International Conference on Service Systems and Service Management (ICSSSM) (pp. 1-6). IEEE.

Hasan, Y., Abdurrahman, Y. W., Muslimin, S., & Maulidda, R. (2020). The automatic door lock to enhance security in RFID system. In Journal of Physics: Conference Series, 1500, 012132. DOI:10.1088/1742-6596/1500/1/012132.

Heine, G. (1999). GSM networks: protocols, terminology and implementation. Boston: Artech House.

Ho, T. D., Hagaseth, M., Rialland, A., Rødseth, Ø. J., Criado, R. G., & Ziaragkas, G. (2018). Internet of things at sea: using AIS and VHF over satellite in remote areas. In Pro. 7th Transp. Res. Arena TRA, April 16-19, 2018, Vienna, Austria, (pp. 1-11).

Kim, S., Jeon, S. Y., Kim, J., Lee, U. M., Shin, S., Choi, Y., & Ka, M. H. (2020). Multichannel W-band SAR system on a multirotor UAV platform with real-time data transmission capabilities. IEEE Access, 8, 144413-144431. DOI: 10.1109/ACCESS.2020.3014700.

Maiorov, N. N., Taratun, V. E., & Fetisov, V. A. (2020). Simulation the process of cargo distribution and identification for the space transport system based on CCSDS standards. In 2020 Wave Electronics and its Application in Information and Telecommunication Systems (WECONF), IEEE, (pp. 1-6). DOI: 10.1109/WECONF48837.2020.9131504.

McRoberts, M. (2011). Arduino Básico. São Paulo: Novatec.

Monico, G.F.J. (2000). Posicionamento pelo NAVSTAR - GPS: descrição, fundamentos e aplicações. São Paulo: UNESP.

Nascimento-e-Silva, D. (2012). Manual de redação para trabalhos acadêmicos: position papers, ensaios teóricos, artigos científicos e questões discursivas. São Paulo: Atlas.

Nascimento-e-Silva, D. (2020a). Manual do método científico-tecnológico. Manaus: D. N. Silva Editor.

Nascimento-e-Silva, D. (2020b). Regras básicas para redação acadêmica. Manaus: D. N. Silva Editor.

Smith, A. D. (2020). Green Supply Chains and Enabling RFID Technology. In: Khosrow-Pour, M. (Ed.). Encyclopedia of Organizational Knowledge, Administration, and Technology. Hershey: IGI Global. 2403-2420.

Souza, A. R. (2011). A placa Arduíno: uma opção de baixo custo para experiências de física assistidas pelo PC. Revista Brasileira de Ensino de Física, 33(1), 1-5.

Tatarinov, V., & Kirsanov, A. (2019). Information support for safety insurance of road transport of dangerous goods. In IOP Conference Series: Materials Science and Engineering, 492(1), 012006.

Valsan, V., Sreekumar, G., Chekkichalil, V., & Kumar, A. S. (2020). Effects of service-learning education among engineering undergraduates: a scientific perspective on sustainable waste management. Procedia Computer Science, 172, 770-776. DOI: 10.1016/j.procs.2020.05.110.

Wallis, K., Schillinger, F., Backmund, E., Reich, C., & Schindelhauer, C. (2020, July). Context-aware anomaly detection for the distributed data validation network in Industry 4.0 environments. In 2020 Fourth World Conference on Smart Trends in Systems, Security and Sustainability (WorldS4), IEEE, (pp. 7-14). DOI: 10.1109/WorldS450073.2020.9210350.

Yau, P. C., Luen, W., Leung, J., & Wong, D. Practicing mobile-commerce as a pro–implementation of an education-oriented commercial trading system. Annals of ICEEG 2020, June 17–19, 2020, Arenthon, France. DOI: https://doi.org/10.1145/3409929.3416794.

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Published

17/10/2020

How to Cite

CARVALHO, L. S. P. de .; NASCIMENTO, J. F. de L. .; NASCIMENTO-E-SILVA, D. Tracking in product delivery using portable RFID with arduine. Research, Society and Development, [S. l.], v. 9, n. 10, p. e7529109298, 2020. DOI: 10.33448/rsd-v9i10.9298. Disponível em: https://rsdjournal.org/index.php/rsd/article/view/9298. Acesso em: 14 nov. 2024.

Issue

Section

Engineerings