Implementation of IoT-Based Monitoring System at Bottle Capping Assembly Stations Using Haiwell Cloud Box

Yuliadi Ernadi; Cepi Ramdani; Quolan Khoerul Auni

doi:10.55681/jige.v6i3.4000

Authors

Yuliadi Ernadi Politeknik Manufaktur Bandung, Indonesia
Cepi Ramdani Politeknik Manufaktur Bandung, Indonesia
Quolan Khoerul Auni Politeknik Manufaktur Bandung, Indonesia

DOI:

https://doi.org/10.55681/jige.v6i3.4000

Keywords:

Automation, Manufacturing Efficiency, Industrial Internet of Things (IoT), PLC, Edge Computing

Abstract

The transformation of Industry 4.0 has driven the integration of automation and the Internet of Things (IoT) in the manufacturing sector. IoT integration in production systems enables direct manipulation of processes and deeper monitoring of operational conditions, thereby reducing errors and increasing productivity. This study designs and implements an IoT-based monitoring system on a bottle cap assembly station by integrating the Mitsubishi FX5U-32MR/ES PLC and the Haiwell Cloud Box (eBOX-E). The system combines sensors for real-time monitoring, cloud-based remote control, and a SCADA Cloud interface accessible via both desktop web and Android devices. Functional testing of the six-page SCADA Cloud system demonstrated that all system components operated optimally (100% success rate) and were compatible across both desktop web and Android platforms without performance differences. The quality of data transmission using the tested 4G network was rated excellent based on QoS parameter evaluations. These findings indicate that the system enhances monitoring accuracy, reduces human error, and strengthens the role of IoT in boosting industrial productivity through more flexible real-time data access and control.

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