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All Journal J@TI (TEKNIK INDUSTRI) Jurnal Sistem dan Manajemen Industri
Inaki Maulida Hakim
Industrial Engineering Departement Diponegoro University Jl. Prof. Sudarto, SH Tembalang Semarang 50239 Telp. 0247460052
Engineering Industrial & Manufacturing Engineering Transportation

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PEMBUATAN ALAT BANTU SIMULASI DALAM RANGKA PERANCANGAN RECONFIGURABLE MANUFACTURING SYSTEM DI INDUSTRI MANUFAKTUR Inaki Maulida Hakim; Ilham Winoto
J@ti Undip: Jurnal Teknik Industri Volume 8, No.3, September 2013
Publisher : Departemen Teknik Industri, Fakultas Teknik, Universitas Diponegoro

Show Abstract | Download Original | Original Source | Check in Google Scholar | Full PDF (426.583 KB) | DOI: 10.12777/jati.8.3.161-170

Abstract

Reconfigurable Manufacturing Systems (RMS) adalah sistem manufaktur yang mempunyai kemampuan mengkonfigurasi ulang hardware, software dan pusat kontrol pada level fungsional dan organisasional supaya secara cepat menyesuaikan kapasitas dan fungsionalitas produksi sebagai respon terhadap pasar atau syarat pengaturan sistem yang berubah secara tiba-tiba. Penelitian ini membahas mengenai alat bantu simulasi RMS dalam rangka perancangan RMS yang dilihat berdasarkan hasil produksi dan penggunaan waktu produksi. Alat bantu simulasi ini dibuat dengan menggunakan metode simulasi berorientasi objek. Dari hasil simulasi dan analisis dapat disimpulkan bahwa alat bantu simulasi RMS ini telah mengandung kaidah dari keenam karakteristik RMS (scalability, convertibility, integrability, modularity, customization dan diagnosability) yang dapat digunakan untuk perancangan dan penerapan RMS pada industri manufaktur.Kata kunci : metode simulasi berorientasi objek, model, Reconfigurable Manufacturing Systems, simulasi Abstract Reconfigurable Manufacturing Systems (RMS) is a manufacturing system that has an ability to reconfigure hardware, software and control resources at all on the functional and organizational levels, in order to quickly adjust production capacity and functionality in response to sudden changes in market or in regulatory requirements. This study discusses the development of simulation model in order to design the RMS which is observed based on the production result and the use of production time. This model was made by using the method of object-oriented simulation. From the results of simulation and analysis models can be concluded that the RMS simulation model already contains the rules of the six characteristics of RMS (scalability, convertibility, integrability, modularity, customization and diagnosability) so it can be used as a tool in the design and implementation of RMS in manufacturing industry.Keywords : Reconfigurable Manufacturing Systems , model, simulation, object-oriented simulation
Layout improvement design to reduce material handling cost by using the systematic layout planning method in the MSME industry Hakim, Inaki Maulida; Salsabila, Durra; Prajadhiana, Keval Priapratama
Jurnal Sistem dan Manajemen Industri Vol. 9 No. 1 (2025): June
Publisher : Universitas Serang Raya

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.30656/jsmi.v9i1.9212

Abstract

This research discusses layout improvements in MSMEs that produce skin crackers distributed in the Jabotabek area. Currently, the quantity of skin crackers produced is experiencing problems. One of the causes of problems is that material handling is still manual, poor layout settings, limited costs, unpredictable weather and lack of labor availability. Poor material handling causes long production duration, workers are less safe and comfortable, and material handling costs are high. Therefore, this research improved the layout by improving the material handling process. The research aims to analyze the existing layout problems, improve the layout, and compare the existing layout with the proposed layout. The method used to improve the layout is systematic layout planning (SLP). The results of the study are that material handling costs reduced by IDR 256,754.99 or 67.8%, increasing capacity by 17.77 kg per week can solve stock shortages, and the duration of material handling is reduced by 28.95 minutes per day or 69.19%.
Co-Authors Adiweno, Latu Ilham Winoto Listiani, Wuri Prajadhiana, Keval Priapratama Salsabila, Durra Vidyahningtyas Istiyanti, Vidyahningtyas