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Real-Time Monitoring System Using Smartphone-Based Sensors and NoSQL Database for Perishable Supply Chain

Author

Listed:
  • Ganjar Alfian

    (u-SCM Research Center, Nano Information Technology Academy, Dongguk University, Seoul 100715, Korea)

  • Muhammad Syafrudin

    (Department of Industrial and Systems Engineering, Dongguk University, Seoul 100715, Korea)

  • Jongtae Rhee

    (Department of Industrial and Systems Engineering, Dongguk University, Seoul 100715, Korea)

Abstract

Since customer attention is increasing due to growing customer health awareness, it is important for the perishable food supply chain to monitor food quality and safety. This study proposes a real-time monitoring system that utilizes smartphone-based sensors and a big data platform. Firstly, we develop a smartphone-based sensor to gather temperature, humidity, GPS, and image data. The IoT-generated sensor on the smartphone has characteristics such as a large amount of storage, an unstructured format, and continuous data generation. Thus, in this study, we propose an effective big data platform design to handle IoT-generated sensor data. Furthermore, the abnormal sensor data generated by failed sensors is called outliers and may arise in real cases. The proposed system utilizes outlier detection based on statistical and clustering approaches to filter out the outlier data. The proposed system was evaluated for system and gateway performance and tested on the kimchi supply chain in Korea. The results showed that the proposed system is capable of processing a massive input/output of sensor data efficiently when the number of sensors and clients increases. The current commercial smartphones are sufficiently capable of combining their normal operations with simultaneous performance as gateways for transmitting sensor data to the server. In addition, the outlier detection based on the 3-sigma and DBSCAN were used to successfully detect/classify outlier data as separate from normal sensor data. This study is expected to help those who are responsible for developing the real-time monitoring system and implementing critical strategies related to the perishable supply chain.

Suggested Citation

  • Ganjar Alfian & Muhammad Syafrudin & Jongtae Rhee, 2017. "Real-Time Monitoring System Using Smartphone-Based Sensors and NoSQL Database for Perishable Supply Chain," Sustainability, MDPI, vol. 9(11), pages 1-17, November.
    • Handle: RePEc:gam:jsusta:v:9:y:2017:i:11:p:2073-:d:118335
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    References listed on IDEAS

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    1. Trienekens, Jacques & Zuurbier, Peter, 2008. "Quality and safety standards in the food industry, developments and challenges," International Journal of Production Economics, Elsevier, vol. 113(1), pages 107-122, May.
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    Cited by:

    1. Nawab Khan & Ram L. Ray & Ghulam Raza Sargani & Muhammad Ihtisham & Muhammad Khayyam & Sohaib Ismail, 2021. "Current Progress and Future Prospects of Agriculture Technology: Gateway to Sustainable Agriculture," Sustainability, MDPI, vol. 13(9), pages 1-31, April.
    2. Nesrin Ada & Manavalan Ethirajan & Anil Kumar & Vimal K.E.K & Simon Peter Nadeem & Yigit Kazancoglu & Jayakrishna Kandasamy, 2021. "Blockchain Technology for Enhancing Traceability and Efficiency in Automobile Supply Chain—A Case Study," Sustainability, MDPI, vol. 13(24), pages 1-21, December.
    3. Ricardo Chalmeta & Nestor J. Santos-deLeón, 2020. "Sustainable Supply Chain in the Era of Industry 4.0 and Big Data: A Systematic Analysis of Literature and Research," Sustainability, MDPI, vol. 12(10), pages 1-24, May.
    4. K. E. K. Vimal & Mohammed Faaz Shaikh & Ananya Pranay Chouhan & Jayakrishna Kandasamy, 2024. "Developing a framework for achieving optimal sustainability and resilience in circular sharing network," Environment, Development and Sustainability: A Multidisciplinary Approach to the Theory and Practice of Sustainable Development, Springer, vol. 26(7), pages 18267-18295, July.

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