Overview

This book is the continuation of the textbook Lean Compendium – Introduction to Modern Manufacturing Theory. It extends the theory of mathematical modeling to batch & queue-based cyber-physical production systems. To facilitate learning, the book continues to develop a Cartesian-derived understanding of the system’s behavior by applying manufacturing-specific theorems, corollaries and lemmas. A law-based description enables to model production mathematically and understand upfront their dynamics in terms of WIP generation, lead-times, exit-rates, and on-time delivery performance. While simulation alone only allows to explore the optimum solution, the development of a theory allows to gain knowledge. This improves the learning of the “physics” of manufacturing systems and contributes to a solid production’s understanding and a clear and cognitive problem determination that leads to a thorough mental capture for mastering a systematic design of such highly complex systems.

Full Product Details

Author:   Bruno G. Rüttimann ,  Martin T. Stöckli
Publisher:   Springer International Publishing AG
Imprint:   Springer International Publishing AG
Edition:   1st ed. 2022
Weight:   0.448kg
ISBN:  

9783031020469

ISBN 10:   3031020464
Pages:   168
Publication Date:   18 June 2022
Audience:   Professional and scholarly ,  Professional & Vocational
Format:   Hardback
Publisher's Status:   Active
Availability:   Manufactured on demand  
We will order this item for you from a manufactured on demand supplier.

Table of Contents

Foreword by Prof. K. Wegener  Prologue   1. Introduction Reflections on Present Production Science Didactics: The Missing of a Cartesian-based Manufacturing Theory (in preparation)   2. Basic Classification of Production Systems From Batch & Queue to Industry 4.0-Type Manufacturing Systems: A Taxonomy of Alternative Production Models (18 Seiten)   3. The Central Importance of the Bottleneck Discourse about Linear Programming and Lean Manufacturing: Two Different Approaches with a Similar Converging Rational (7 Seiten)   4. Elasticity, Lead-Time, On-Time Delivery Exploiting Virtual Elasticity of Production Systems for Respecting OTD – Part 1: Post-Optimality Conditions for Ergodic Order Arrivals in Fixed Capacity Regimes (22 Seiten)   5. Understanding the Advantage of Lean Pull JIT Versus Push B&Q Exploiting Virtual Elasticity of Manufacturing Systems to Respect OTD – Part 2: Post-Optimality Conditions for the Cases of Ergodic and Non-ergodic Order Rate with Deterministic Product-Mix (25 Seiten)   6. Flexibility and the One-off Product Challenge of CPPS Exploiting Virtual Elasticity of Production Systems to Respect OTD – Part 3: Modelling CPPS Characterized by Non-ergodic Order Entry and Non-deterministic Product-mix for Fully Flexible Addressable Workstations (in preparation)   7. Some Critical Considerations About Industry 4.0 Lean and Industry 4.0 – Twins, Partners, or Contenders? A Due Clarification Regarding the Supposed Clash of Two Production Systems (16 Seiten)   Epilogue

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Author Information

B. Rüttimann:- Dr.-Ing. Milan Polytechnic Institute - MBA Bocconi University - 20 years managerial experience (Alusuisse, Alcan, Rio Tinto) - since 2010 consulting (inspire AG) - since 2010 lecturing (ETH Zürich)   M. Stöckli - Dr. sc. techn. ETH Zürich - Dipl. Masch.-Ing. ETH Zürich - NDS BWI, ETH Zürich - >20 years managerial experience in the automotive industry (Delphi Automotive Systems, IVECO, Schaffner, DUAP) - since 2009 head of inspire Academy (inspire AG) - since 2008 COO of inspire AG

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