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"A structured, data-driven approach to understanding core operations management concepts.Anupindi shows how managers can design and manage process structure and process drivers to improve the performance of any business process"

"Tesis ini mendiskusikan sinergi six sigma, axiomatic design ( AD ), TRIZ, dan DOE untuk perbaikan desain sistem manufaktur. Six sigma-axiomatic design- TRIZ digunakan untuk mendesain sistem. DOE digunakan untuk optimasi parameter desain. AD digunakan untuk men dekomposisi masalah dan TRIZ untuk menemukan solusinya. TRIZ digunakan untuk membangkitkan solusi dan men decouple matrik desain dalam kerangka AD. Sinergi six sigma-AD-TRIZDOE digunakan untuk menyelesaikan studi kasus perbaikan tingkat keberhasilan proses ( TKP ) cam boring di lini cylinder head machining untuk sepeda motor 110 cc. Hasilnya TKP proses camboring meningkat dari 95,5 menjadi 97,5% dan TKP lini cylinder head machining meningkat dari 93,6% menjadi 95,8.

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This paper discuss about sinergetic use of six sigma - axiomatic design ( AD ) - TRIZ - DOE for manufacturing system design improvement. Six sigma axiomatic design - TRIZ used in system design phase. DOE used in design parameter optimization phase. AD powerfull in problem decomposition and TRIZ for problem solution. TRIZ used for generate solution and decoupled design matrix in AD framework. Sinergetic use of six sigma - axiomatic design ( AD ) - TRIZ - DOE aplicated for case study increase of of camboring process productivity in cylinder head machining production line for 110 cc motor cycle. Final result camboring process productivity increase from 95,5% to 97,5% and productivity of cylinder head machining production line increase from 93,6 % to 95,8."

"This book presents a number of efficient techniques for solving large-scale production scheduling and planning problems in process industries. The main content is supplemented by a wealth of illustrations, while case studies on large-scale industrial applications, ranging from continuous to semicontinuous and batch processes, round out the coverage.The book examines a variety of complex, real-world problems, and demonstrates solutions that are applicable to scenarios and countries around the world. Specifically, these case studies include:• the production planning of the bottling stage of a major brewery at the Cervecería Cuauhtémoc Moctezuma (Heineken Int) in Mexico;• the production scheduling for multi-stage semicontinuous processes at an ice-cream production facility of Unilever in the Netherlands;• the resource-constrained production planning for the yogurt production line at the KRI KRI dairy production facility in Greece; and• the production scheduling for large-scale, multi-stage batch processes at a pharmaceutical batch plant in Germany.In addition, the book includes industrial-inspired case studies of:• the simultaneous planning of production and logistics operations considering multi-site facilities for semicontinuous processes; and• the integrated planning of production and utility systems in process industries under uncertainty.Solving Large-scale Production Scheduling and Planning in the Process Industries offers a valuable reference guide for researchers and decision-makers alike, as it shows readers how to evaluate and improve existing installations, and how to design new ones. It is also well suited as a textbook for advanced courses on production scheduling and planning in industry, as it addresses the optimization of production and logistics operations in real-world process industries."

"Covering the principles and techniques you need to successfully manage an engineering or technical project from start to finish, Project management, planning and control is an established and widely recommended project management handbook.With clear and detailed coverage of planning, scheduling and control, which can pose particular challenges in engineering environments, this sixth edition includes new chapters on Agile project management and project governance, more real-life examples and updated software information.Ideal for those studying for project management professional (PMP) qualifications, project management, planning and control is aligned with the latest project management body of knowledge (PMBOK) for both the Project Management Institute (PMI) and the Association of Project Management (APM), and includes questions and answers to help you test your understanding. It is also updated to match the latest BS 6079 standard for project management in construction."

"Tujuan utama Industri manufaktur adalah untuk memproduksi barang secara ekonomis agar dapat memperoleh keuntungan serta dapat menyerahkan produk tepat pada waktunya. Proses produksi yang tidak efektif dan efisien menyebabkan produksi tidak lancar. Lean production system membantu perusahaan untuk menjadi kompetitif, terutama dalam hal mengurangi pemborosan waste yang terjadi pada operasi mereka. Penelitian ini bertujuan untuk mengurangi waste produksi pada salah satu perusahaan otomotif dengan menggunakan Waste Relationship Matrix (WRM), Waste Assessment Questionnaire (WAQ) dan Value stream Mapping (VSM). Kegiatan dalam Industri otomotif ialah merancang, mengembangkan, memproduksi, memasarkan, dan menjual kendaraan bermotor di dunia. Ketiga metode tersebut bertujuan untuk mengidentifikasi serta menganalisa pemborosan waste yang terjadi serta melakukan perbaikan untuk mengeliminasi pemborosan tersebut.Dari hasil penelitian diperoleh jenis waste form yaitu waiting dan motion. Sedangkan jenis waste to yaitu inventory. Ketiga jenis waste tersebut adalah yang paling besar prosentasinya untuk terjadi pada proses assembly trimming pada lini proses produksi mobil. Setelah dilakukan implementasi perbaikan dengan menggunakan metode WRM dan VSM diperoleh hasil efisiensi waste yang terjadi pada jenis waste from yaitu motion dari 17.65 menjadi 15.75 , waiting dari 15.88 menjadi 13.12 , dan Lead Time turun dari 14.202 menit menjadi 12.322 menit dalam satu proses assembly trimming. Beberapa saran improvement yang dilakukan adalah penerapan sistem FIFO First in First Out , Melakukan improvement perubahan pada gerak dan perpindahan pekerja, dan Line Balancing pada lini proses asembly trimming proses produksi mobil.

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The main purpose of a manufacturing industry is to produce goods economically in order to gain advantage and can deliver products on time. The production process is not effective and efficient cause of production is not smooth. Lean production helps companies to become competitive, especially in terms of reducing the waste that occurs in their operations. This study aims to reduce waste production at one of the automotive companies are using the waste relationship matrix WRM , waste assessment questionnaire WAQ and Value stream Mapping VSM . The main jobs in automotive industry are paln, develop, produce, market, and supplier the world motorized vehicle. The use of these three methods an intended to identify and analyze the waste that occurred and proposed improvement to eliminate the waste that occured. In the result kind of 'from' waste in the car assembly trimming process are Motion and Waiting waste. Kind of 'to' waste is Inventory that caused by another waste. Motion waste occured as waste.

From the research results obtained type of waste form is waiting and motion. While the type of waste to the inventory. The third type of waste is the greatest procession to occur in the assembly trimming process on the production line of the car. After the implementation of the improvement using WRM and VSM methods obtained the results of waste efficiency that occurs in the type of waste from the motion of 17.65 to 15.75 , waiting from 15.88 to 13.12 , and Lead Time down from 14.202 minutes to 12.322 minutes in one assembly process Trimming. Several suggestions for improvement are the implementation of FIFO system First in First Out , Improving changes in movement and movement of workers, and Line Balancing on the process line asembly trimming car production process."