Perancangan Electronic Kanban Menggunakan Metode Constant Quantity Withdrawal System untuk Mengurangi Keterlambatan pada Assembly Junction di PT Dirgantara Indonesia

Choiriyah, Puput Nidaul

doi:10.20961/performa.20.2.53211

Cited by 1 publication

(1 citation statement)

References 2 publications

Supporting

Mentioning

Contrasting

Order By: Relevance

“…Furthermore, the data obtained using IoT can be processed to perform: (i) monitoring of production processes [9], (ii) tracing of production units [10], (iii) analyzing production performance [11], (iv) managing production schedule [12], and (v) obtaining digital twin of the production system [13]. At the level of the production floor, IoT can be applied to improve the performance of the operators through dashboards on electronic displays [14] and perform predictive maintenance on production machines which can reduce the downtime of the machines [15]. With these in mind, we utilize IoT technology to achieve the digitalization of the kanban production system.…”

Section: Introductionmentioning

confidence: 99%

An Implementation of Internet of Things for Digitalization of Kanban Production System

Purba,

Lalujan,

Phangnesia

2024

JSC

View full text Add to dashboard Cite

Just-In-Time production system in the form of kanban has been implemented in many production processes in order to optimize the production output. Internet of Things (IoT) has been integrated into production system in digitalizing production processes as well as obtaining and gathering real-time information in the factory floor through sensors, actuators, and network. In this study, an application of IoT into kanban and production system was proposed. The proposed electronic kanban system composed of Radio Frequency Identification (RFID) cards and readers, QR code and reader, microcontrollers, digital displays, and server. In this system, the kanban card is replaced by an RFID card. All workstations in the production process are equipped by RFID readers, microcontrollers, and displays to show relevant instructions to the operator. The microcontrollers are connected to a server to send information of the RFID card scanned by them and the time when the card was scanned. The latter information is used for tracing each of the products produced in each of the workstations. The proposed electronic Kanban system was implemented to an assembling process consisting of 7 workstations. The system was able to replace the conventional kanban card with RFID and electronic displays and performing the unit tracing capability.

show abstract