Download PDFOpen PDF in browserThe Initiation of Programmable Control Unit Developments for Proactive Maintenance Approach: Pilot Project in Case Study of High Bay Lighting System of Extension Area in Experimental Hall.EasyChair Preprint 19954 pages•Date: November 19, 2019AbstractProactive maintenance is a maintenance strategy that aims to correct root cause of failure and breakdown caused by underlying equipment conditions. Breakdown can be avoided by monitoring equipment deterioration, and root cause of failure can be found by using empirical evidence of condition monitoring and data-driven engineering approach. Proactive maintenance corresponds to sustainable development goals set up by the United Nations (UN). To achieve this goal, resources should be utilized efficiently. This manuscript reports the case study of resource utilization within the Synchrotron Light Research Institute (SLRI) laboratory. In role of international central laboratory, the SLRI organization highly uses resource consumptions to produce synchrotron light to service scientists and researchers. There is novel project aimed to support proactive maintenance approach by developing the Programmable Control Unit (PCU) to harvest the insight data from target equipment. The harvested data from PCU can be used as patterns for learning and analysis processes of proactive maintenance. The high bay lighthing system is target equipment which operating within experimental hall of the SLRI laboratory. This manuscript is the first study of the PCU implementation into the high bay lighting system in a part of extension area. Unique details of design and implementation method are explained in this document. All findings, pros and cons are reported. Finally, suggestions for further steps of proactive maintenence approach are made. Keyphrases: Data-driven Engineering, Programmable control unit, Synchrotron, proactive maintenance
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