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With increased globalization and offshore sourcing, global supply chain management is becoming an important issue for many businesses as it involves a company's worldwide interests and suppliers rather than simply a local or national orientation. The storage systems significantly affect the level of quality of products, the customer’s service level, and the global logistic cost. The mission of warehousing systems design, control and optimization is to effectively ship products in the right place, at the right time, and in the right quantity (i.e. in any configuration) without any damages or alterations, and minimizing costs. Warehousing in the Global Supply Chain presents and discusses a set of models, tools and real applications, including a few case studies rarely presented with a sufficient detail by other literature, to illustrate the main challenges in warehousing activities. This includes all warehouse operations (from receiving to shipping), problems and issues (e.g. storage allocation, assignment, layout, vehicle routing) for industrial and service systems as parts of global supply chains. Advanced and effective solving methods are also illustrated and the discussed case studies help the reader to quickly apply the proposed models and techniques/algorithms. Warehousing in the Global Supply Chain is useful to managers and practitioners of industry and service sectors for the determination and modeling of the critical issues concerning warehousing systems planning and design. It is a valuable source of information for engineering students, doctoral and post-doctoral students, and researchers of academic institutions who are searching for advanced modeling approaches and solving techniques to complex logistic decision making problems.

Business logistics. --- Engineering. --- Engineering economy. --- Inventory control. --- Operations research. --- Stores or stock-room keeping. --- Structural control (Engineering). --- Warehouses -- Management. --- Inventory control --- Stores or stock-room keeping --- Warehouses --- Business logistics --- Mechanical Engineering --- Civil & Environmental Engineering --- Commerce --- Engineering & Applied Sciences --- Business & Economics --- Marketing & Sales --- Industrial & Management Engineering --- Civil Engineering --- Management --- Physical distribution of goods --- Materials handling. --- Management. --- Handling of materials --- Material handling --- Materials --- Mechanical handling --- Supply chain management --- Warehouse management --- Warehousing --- Handling and transportation --- Production management. --- Decision making. --- Robotics. --- Automation. --- Engineering economics. --- Industrial engineering. --- Engineering Economics, Organization, Logistics, Marketing. --- Operations Management. --- Operating Procedures, Materials Treatment. --- Operation Research/Decision Theory. --- Robotics and Automation. --- Plant engineering --- Plant layout --- Production engineering --- Shipment of goods --- Industrial management --- Logistics --- Manufactures. --- Manufacturing, Machines, Tools, Processes. --- Operations Research/Decision Theory. --- Operational analysis --- Operational research --- Industrial engineering --- Management science --- Research --- System theory --- Manufactured goods --- Manufactured products --- Products --- Products, Manufactured --- Commercial products --- Manufacturing industries --- Manufacturing management --- Economy, Engineering --- Engineering economics --- Automatic factories --- Automatic production --- Computer control --- Engineering cybernetics --- Factories --- Mechanization --- Assembly-line methods --- Automatic control --- Automatic machinery --- CAD/CAM systems --- Robotics --- Automation --- Machine theory --- Deciding --- Decision (Psychology) --- Decision analysis --- Decision processes --- Making decisions --- Management decisions --- Choice (Psychology) --- Problem solving --- Decision making

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Industrial economics --- Operational research. Game theory --- Materials processing --- Artificial intelligence. Robotics. Simulation. Graphics --- Computer. Automation --- automatisering --- speltheorie --- operationeel onderzoek --- industriële marketing --- ingenieurswetenschappen --- robots --- productieprocessen

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Sustainable Food Supply Chains: Planning, Design, and Control through Interdisciplinary Methodologies provides integrated and practicable solutions that aid planners and entrepreneurs in the design and optimization of food production-distribution systems and operations and drives change toward sustainable food ecosystems. With synthesized coverage of the academic literature, this book integrates the quantitative models and tools that address each step of food supply chain operations to provide readers with easy access to support-decision quantitative and practicable methods. Broken into three parts, the book begins with an introduction and problem statement. The second part presents quantitative models and tools as an integrated framework for the food supply chain system and operations design. The book concludes with the presentation of case studies and applications focused on specific food chains. Sustainable Food Supply Chains: Planning, Design, and Control through Interdisciplinary Methodologies will be an indispensable resource for food scientists, practitioners and graduate students studying food systems and other related disciplines.

Food supply. --- Food control --- Produce trade --- Agriculture --- Food security --- Single cell proteins

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This book illustrates innovative support-decision models, methods, and advanced automation and robotic technologies aimed at enhancing the overall performance of Warehousing and Material Handling (WMH) in terms of time and space efficiency, service levels, labor safety, and ergonomics. It provides a collection of cutting-edge issues commonly faced in warehousing systems worldwide, along with a structured set of methodologies and technological solutions to address them. Warehousing and Material Handling (WMH) are pivotal processes within supply chain and production systems. They involve the handling, consolidation, and storage of goods such as raw materials, parts, components, and finished products within distribution centers. WMH is also a key component of distribution networks, serving as a hierarchy of facilities dedicated to receiving materials from vendors and shipping to customers while meeting service level and performance targets. The book offers readers the opportunity to explore this topic from multiple knowledge levels and perspectives. At the basic level, it introduces readers to the problems, issues, nomenclature, fundamental models, and methods to support the decision-making process. At an intermediate level, it delves into the state-of-the-art on critical issues in warehousing and material handling systems. Finally, at an advanced level, it delves into the most challenging and recent research and industry issues, addressing both providers and users of WMH solutions and technologies. The book's intended audience includes undergraduate students, graduate students, PhD students, post-doc researchers, scholars, and researchers from academia and industry. It is also relevant for practitioners and managers working in production, logistics, and supply chain environments. The authors' approach is multidisciplinary, with a special focus on logistics, automation, optimization, safety, ergonomics, and the overall sustainability of WMH systems and operations.

Industrial engineering. --- Production engineering. --- Business logistics. --- Production management. --- Internet of things. --- Sustainability. --- Industrial and Production Engineering. --- Logistics. --- Production. --- Internet of Things.

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New, global and extended markets are forcing companies to process and manage increasingly different products with shorter life cycles, low volumes and reduced customer delivery times. In today’s global marketplace production systems need to deliver products on time, maintain market credibility, and introduce new products and services faster than competitors. As a result, a new production system paradigm has been developed and a supporting management decision-making approach, which simultaneously incorporates design, management, and control of the production system, is necessary in order for this challenge to be met effectively and efficiency. Maintenance for Industrial Systems addresses this need by introducing an original and integrated idea of maintenance: maintenance for productivity. The volume starts with the introduction and discussion of a new conceptual framework based on productivity, quality, and safety supported by maintenance. Subsequent chapters illustrate the most relevant models and methods for planning, organising, implementing and controlling the whole maintenance process. Several examples of problems supported by solutions, and real applications to help and test the reader’s comprehension are included. Maintenance for Industrial Systems is a valuable source of information for engineering students, doctoral and post-doctoral students, and also for maintenance practitioners and managers of industrial or service companies. Springer Series in Reliability Engineering publishes high-quality books in important areas of current theoretical research and development in reliability, and in areas that bridge the gap between theory and application in areas of interest to practitioners in industry, laboratories, business, and government.

Hygiene. Public health. Protection --- Engineering sciences. Technology --- Plant and equipment --- Production management --- Chemical technology --- Computer. Automation --- betrouwbaarheid --- BIT (biochemische ingenieurstechnieken) --- veiligheid (bouw) --- management --- productie --- kwaliteitscontrole --- ingenieurswetenschappen --- chemische technologie