Synopses & Reviews
This volume is a collection of recent key results in supply chain optimisation. It presents new approaches and methods based on operations research, artificial intelligence and computer sciences techniques for design of production systems, supply and inventory management, production planning and scheduling, facility location, transportation and logistics, supply flow optimisation via simulation, etc. The content focuses on a wide spectrum of optimisation problems taking into account supply chain paradigms, which create a pivotal idea to increase the productivity of modern production systems. The first part of the book presents a set of modelling techniques taking into account the enterprise integration problem, the knowledge management in the SME networks, and the human resources in business process engineering. The second part is dedicated to advanced optimisation methods for supply chain design and management which are based on mathematical programming and metaheuristics. The third part of this book deals with some examples of advanced applied decision aid tools directly linked to real industrial problems. Audience This volume is suitable for industrial engineers, faculty staff and graduate students in industrial engineering, management science, operations research, artificial intelligence and computer sciences. This book can be used as a reference for graduate courses and also for researchers and industrial engineers to capture current trends in this field.
Synopsis
This volume collects recent results in supply chain optimisation. It presents new approaches and methods based on operations research, artificial intelligence and advanced computing techniques for design of production systems, supply and inventory management, production planning and scheduling, location, transportation and logistics, and simulation in supply flow optimisation. The text presents a wide spectrum of optimisation problems taking into account supply chain paradigms, which are pivotal to improving productivity.
Synopsis
The idea of this book came to us in October 2002 at the international conference Production systems design, supply chain management and logistics (Miedzyzdroje, Poland). This conference was organized by an initiative group from certain French and Polish Universities with the objective to find a new synergy and to develop a Pan European (West East) cooperation in the areas of: Design of production systems Supply and inventory management Production planning and scheduling Facility location, transportation and logistics Supply chain optimisation via simulation The conference was focused on a wide spectrum of optimisation problems taking into account Supply Chain paradigms, which create a pivotal idea to increase the productivity of modern production systems. The editors proposed to the group members, to present their results for this book. Some well-known scientists agreed also to participate in this work and sent us their contribution. The main idea of this book is that now, it is necessary to consider all the stages of product life cycle in an integrated approach, from the product/process design to the customer delivering. For example at the product design stage, we need to analyse and to optimise all the supply chain. The book is composed of 20 chapters divided into three parts."
Table of Contents
Contributing Authors.- Preface.- An Initiative for International Consensus on Enterprise.- Towards Knowledge Logistics in Agile SME Networks.- A Modelling Framework for Human Resource-Based Business Processes.- Managing Service-Sensitive Demand Through Simulation.- Robust Modeling of Consumer Behaviour.- Sizing, Cycle Time and Plant Control Using Dioid Algebra.- Concurrent Processes Flow Prototyping.- Modelling of the Supply Chain.- Hybrid Methods for Line Balancing Problems.- Stability of Optimal Line Balance.- Simple Plant Location Problem.- Concave Cost Supply Management.- Product Family and Supply Chain Design.- Sales and Operations.- Response Surface-Based Simulation.- A Modeling and Simulation Framework.- Internet Web-Based Integration of Process and Manufacturing.- Visual Representation of Material Flows.- Identification-Based Condition Monitoring.- Simulation of Distributed Industrial Systems.- Index.