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All Journal Diseminasi : Jurnal Pengabdian kepada Masyarakat Indonesian Journal of Industrial Engineering & Management
Saputra, Alfiolani
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Control & Systems Engineering Decision Sciences, Operations Research & Management Engineering Industrial & Manufacturing Engineering

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PENINGKATAN EFISIENSI BISNIS: SOSIALISASI TEKNOLOGI CLOUD UNTUK PENGELOLAAN PERSEDIAAN BENGKEL MOTOR Sumasto, Fredy; Imansuri, Febriza; Purwojatmiko, B. Handoko; Aminudin, Muhammad; Saputra, Alfiolani
Diseminasi: Jurnal Pengabdian kepada Masyarakat Vol. 6 No. 1 (2024)
Publisher : Pusat Pengabdian kepada Masyarakat- LPPM Universitas Terbuka

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.33830/diseminasiabdimas.v6i1.6591

Abstract

Program Pengabdian kepada Masyarakat (PKM) yang dilakukan bertujuan meningkatkan keberlangsungan bisnis Bengkel Motor melalui sosialisasi manajemen persediaan berbasis cloud. Melalui desain dan implementasi Mini Sistem Inventory Control (Mini SICo), program ini berfokus pada meningkatkan pemahaman dan keterampilan pengelolaan persediaan pada pemilik dan karyawan bengkel. Kegiatan ini meliputi kunjungan lapangan, sosialisasi konsep manajemen persediaan, dan demonstrasi penggunaan Mini SICo. Hasilnya menunjukkan peningkatan yang signifikan dalam pemahaman mitra tentang manajemen persediaan dan respons positif terhadap sosialisasi serta implementasi alat bantu ini. Evaluasi program menunjukkan bahwa Mini SICo memberikan solusi praktis untuk optimalisasi persediaan dan memberikan kontribusi nyata pada peningkatan daya saing dan keberlangsungan bisnis bengkel motor di masa depan. The Community Service Program (PKM) aims to improve the business sustainability of motorcycle repair shops through the socialization of cloud-based inventory management. Through the design and implementation of the Mini Inventory Control System (Mini SICo), this program focuses on improving the understanding and skills of inventory management in workshop owners and employees. The activities included field visits, socialization of inventory management concepts, and demonstration of the use of Mini SICo. The results showed a significant increase in partners' understanding of inventory management and a positive response to the socialization and implementation of this tool. The program evaluation showed that Mini SICo provided a practical solution for inventory optimization and made a real contribution to improving the competitiveness and future sustainability of the motorcycle workshop business.
Strategic Line Balancing for Enhanced Efficiency in Solar Module Manufacturing: A Comprehensive Study in the Renewable Energy Sector Imansuri, Febriza; Sumasto, Fredy; Pratama, Indra Rizki; Aminuddin, Muhammad; Saputra, Alfiolani
IJIEM - Indonesian Journal of Industrial Engineering and Management Vol 5, No 3: October 2024
Publisher : Program Pascasarjana Magister Teknik Industri Universitas Mercu Buana

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.22441/ijiem.v5i3.22972

Abstract

This study endeavors to enhance the productivity of solar module production in a renewable energy conversion company. The existing production line needs help in achieving the daily target of 64 units, resulting in an actual output of only 40 units. This study focuses on optimizing the production line by considering processing time adjustments and operator flexibility. To accurately measure working time, we incorporate operator flexibility and adjustment factors in the planning phase of solar module production. The primary objective is establishing an optimal production trajectory by balancing the load and capacity across workstations, thereby elevating overall production efficiency. The approach involves the application of the trial-error method and the shortest operation time method, implemented through POM QM software. Through meticulous data analysis, we determine that the trial-error process yields the most optimal results. Post-implementation, improvements are evident as the solar module production capacity increases to 60 units per day from the initial 40 units. Additionally, the idle time ratio on the assembly line to available time diminishes to 13.17% after optimization. This study contributes valuable insights into the effective enhancement of solar module production lines, emphasizing practical methodologies and software-assisted techniques for achieving substantial productivity gains in the renewable energy sector. 
Co-Authors Aminudin, Muhammad Imansuri, Febriza Indra Rizki Pratama Muhammad Aminuddin, Muhammad Purwojatmiko, B. Handoko Sumasto, Fredy