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"This Minibook is a brief guide for Green Belt during a Lean Six Sigma project management or for Kaizen Leader during a process improvement activity. Through both its theoretical concepts and practical examples it is a pocket book for a quick consultancy. Authors idea comes from companies needs in order to analyze information useful to know in depth different kind of processes. The set of Six Sigma tools are explained through Minitab 16, the last release of the most widely used statistical software. "

"This book gathers the proceedings of the 4th International Conference on the Industry 4.0 Model for Advanced Manufacturing (AMP 2019), held in Belgrade, Serbia, on 3-6 June 2019. The event marks the latest in a series of high-level conferences that bring together experts from academia and industry to exchange knowledge, ideas, experiences, research findings, and information in the field of manufacturing. The book addresses a wide range of topics, including: design of smart and intelligent products, developments in CAD/CAM technologies, rapid prototyping and reverse engineering, multistage manufacturing processes, manufacturing automation in the Industry 4.0 model, cloud-based products, and cyber-physical and reconfigurable manufacturing systems. By providing updates on key issues and highlighting recent advances in manufacturing engineering and technologies, the book supports the transfer of vital knowledge to the next generation of academics and practitioners. Further, it will appeal to anyone working or conducting research in this rapidly evolving field. "

"Proses manufacturing di Biro Manufaktur UBPP LM mulai weighing sampai dengan engraving terdapat beberapa aktifitas non value added seperti pencatatan/rekaman produksi secara manual, belum adanya standarisasi dan digitalisasi yang menyebabkan loss time serta operator memerankan peranan penting didalam proses produksi sehingga apabila terjadi kesalahan dapat menyebabkan ketidaksesuaian produk yang dihasilkan. Tujuan penelitian ini mengidentifikasi dan mengeliminasi berbagai pemborosan yang ada dalam proses manufacturing menggunakan Value Stream Mapping (VSM). Pendekatan VSM untuk memahami manufacturing emas yang dipetakan dalam current state map serta improvement yang diterapkan pada future state map dengan tujuan menghilangkan pemborosan, mengurangi cycle time dan akhirnya akan meningkatkan produktifitas. Cycle time di proses weight check, cleaning, press dan gravir untuk tiap varian gramasi masih di atas 7,2 detik per pcs (takt time) dengan target harian 9,000 keping. Usulan improvement dibuat dalam skenario prioritas untuk menghilangkan waste ataupun non value-added activities seperti re-layout equipment, peremajaan peralatan punch, press, gravir. Dengan penerapan improvement yang diusulkan maka dampak yang diberikan yaitu penurunan cycle time terhadap takt time. Dari perbandingan cycle time sebelum dan sesudah improvement menunjukan penurunan signifikan terhadap cycle time dengan persentase yaitu 68,76% jika usulan improvement diterapkan semuanya. 

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The manufacturing process at the UBPP LM Manufacturing Bureau from weighing to engraving includes several non-value-added activities such as manual recording/recording of production, the lack of standardization and digitization which causes time loss and operators play an important role in the production process which means if an error occurs it can result in defect of the manufactured products. Using Value Stream Mapping (VSM), the purpose of this study is to identify and eliminate various wastes in the manufacturing process. VSM approach to comprehend the manufacturing gold mapped in the current state map as well as improvements applied to the future state map in order to eliminate waste, reduce cycle time, and potentially increase productivity. Cycle time in the weight check, cleaning, press, and gravir processes for each gram variant is still greater than 7.2 seconds per piece (takt time) with a daily production goal of 9,000 pieces. In priority scenarios, proposed improvements are implemented to eliminate waste or non-value-added activities such as the re-layout of equipment, the refurbishment of punch, press, and gravir equipment. The impact of implementing the proposed improvements is a reduction in cycle time compared to takt time. Comparing cycle time before and after improvement shows a significant 68.76% reduction in cycle time if all of the proposed improvements are implemented."

"Dalam proses pengembangan produk, terdapat langkah awal dimana konsep desain memerlukan berbagai simulasi dan alat permodelan matematika dengan bantuan perangkat lunak komputer computer-aided . Langkah tersebut disebut dengan Virtual Manufacturing. Singkatnya, Virtual Manufacturing digunakan untuk memanufaktur dan memvalidasi desain secara virtual sebelum membuat produk fisiknya secara nyata. Dari segi perkembangan perangkat lunaknya, Virtual Manufacturing terus dikembangkan dan diperbaharui mengikuti perkembangan teknologi dunia manufaktur. Melihat dari sisi lain, dari sisi input penggunanya, Virtual Manufacturing dapat dikembangkan agar pengguna bisa berinteraksi dengan benda virtual dalam komputer. Untuk mengembangkan sisi input dari Virtual Manufacturing, maka digunakan alat pengukur besaran kontraksi otot pengguna yang kemudian dapat dirubah menjadi masukan input untuk berinteraksi dengan objek secara virtual dalam program Computer-Aided Design CAD . Penelitian ini membahas cara mengkalibrasi dan memfilter sinyal keluaran Sensor kontraksi otot tersebut agar besaran kontraksi pengguna dapat diterjemahkan menjadi besaran gaya yang dapat disimulasikan di program Computer-Aided Design CAD . Hal ini memungkinkan pengguna berinteraksi dengan objek secara virtual dengan besaran gaya yang mendekati keadaan nyata.

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In the product development process, there is an initial step where the concept of design requires various simulations and mathematical modeling tools with the help of computer software computer aided . This step is called Virtual Manufacturing. To summarize, Virtual Manufacturing is used to manufacture and validate the design virtually before the physical product is manufactured. In terms of its software development, Virtual Manufacturing continues to be developed and updated following the manufacturing technology development. On the other hand, in terms of user input, Virtual Manufacturing can be developed so that users can interact with virtual objects in the computer. To develop the input side of Virtual Manufacturing, a muscle contraction measurement device is used to convert the contraction value into software inputs. This input allows the user to interact with objects virtually in Computer Aided Design CAD programs. This paper discusses how to calibrate and filter the muscle contraction measurement output signals so that the amount of user muscle contraction can be translated into a simulated force in the Computer Aided Design CAD program. This allows the user to interact with objects virtually with a force that matches a real life condition as close as possible."

"This book covers a variety of topics related to machine manufacturing and concerning machine design, product assembly, technological aspects of production, mechatronics and production maintenance. Based on papers presented at the 6th International Scientific-Technical Conference MANUFACTURING 2019, held in Poznan, Poland on May 19-22, 2019, the different chapters reports on cutting-edge issues in constructing machine parts, mechatronic solutions and modern drives. They include new ideas and technologies for machine cutting and precise processing. Chipless technologies, such as founding, plastic forming, non-metal construction materials and composites, and additive techniques alike, are also analyzed and thoroughly discussed. All in all, the book reports on significant scientific contributions in modern manufacturing, offering a timely guide for researchers and professionals developing and/or using mechanical engineering technologies that have become indispensable for modern manufacturing. "

"The papers in this volume present recent and highly relevant topics in the fields of production research as 3D printing, additive manufacturing processes, agile product development, change dynamics in companies, configurable material systems, data analysis in process optimization, future technologies with high potential in value creation, global production, learning production systems, production of the future, organization of assemblies, resource efficiency in production, robotics in assembly, and technology trends in machine tools. "

"This book presents selected proceedings of the International Conference on Production and Industrial Engineering (CPIE) 2018. Focusing on recent developments in the field of production and manufacturing engineering, it provides solutions to wide-ranging contemporary problems in manufacturing engineering and other allied areas using analytical models and the latest numerical approaches. The topics covered in this book include conventional and non conventional machining, casting, welding, materials and processing. As such it is useful to academics, researchers and practitioners working in the field of manufacturing and production engineering.;"

"ABSTRAKPenelitian ini bertujuan untuk mengestimasi hubungan antara digitalisasi dengan produktivitas tenaga kerja di sektor industri manufaktur. Kami menggunakan data 33.577 perusahaan industri berskala besar dan sedang di Indonesia Tahun 2017 yang diperoleh dari hasil Survei Industri Besar Sedang, Badan Pusat Statistik RI. Kami menggunakan metode regresi linier berganda terhadap data cross-section dengan variabel dependen yaitu produktivitas tenaga kerja dan variabel independen utama yaitu proporsi nilai aset ICT terhadap total aset barang modal sebagai variabel digitalisasi. Hasil estimasi menunjukkan bahwa digitalisasi berasosiasi positif dan signifikan terhadap produktivitas tenaga kerja industri besar dan sedang di Indonesia.

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ABSTRACTThis study aimed to estimate the relationship between digitalization and labor productivity in manufacturing sector. We used data of 33.577 large and medium industrial firms in Indonesia in 2017 obtained from Annual Manufacturing Survey 2017 database, Statistics Indonesia. We used multiple linear regression on cross-sectional data with labor productivity as dependent variable and ICT asset proportion as our main independent variable, represented the digitalization variable. Our estimation results show that digitalization is positively and significantly associated with labor productivity in large and medium industries in Indonesia."