Maynard's Industrial and Systems Engineering Handbook, Sixth Edition /

This Handbook was developed from the ground upward based on the needs of a practicing industrial engineer. The objective of this handbook, therefore, is to serve as the single point of reference to a student and a practitioner in the field and anywhere in the world on anything related to industrial...

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Detalles Bibliográficos
Clasificación:Libro Electrónico
Otros Autores: Bidanda, Bopaya (Editor )
Formato: Electrónico eBook
Idioma:Inglés
Publicado: New York, N.Y. : McGraw Hill LLC, [2023]
Edición:Sixth edition.
Colección:McGraw-Hill's AccessEngineeringLibrary.
Temas:
Industrial engineering > Handbooks, manuals, etc.
Industrial engineering.
Electronic books.
Acceso en línea:Texto completo
Tabla de Contenidos:
  • Cover
  • Title Page
  • Copyright Page
  • Dedication
  • About the Editor
  • Section Editors
  • Contributors
  • Acknowledgments
  • Foreword
  • Preface
  • Contents?Sections
  • Contents?Chapters
  • Online Content Table of Chapters
  • SECTION 1 Industrial Engineering: Past, Present, and Future
  • Chapter 1 The Purpose and Evolution of Industrial Engineering
  • Chapter 2 Fundamentals of Industrial Engineering
  • Chapter 3 The Future of Industrial and Systems Engineering?One Perspective
  • Chapter 4 Industrial and Systems Engineering Body of Knowledge: A Professional Reference for the Field
  • SECTION 2 Productivity
  • Chapter 5 The Concept and Importance of Productivity
  • Chapter 6 Lean: Basic Thinking
  • Chapter 7 Methods Engineering?The Design and Improvement of Work
  • Chapter 8 Work Measurement and Engineered Labor Standards
  • Chapter 9 Forecasting, Planning, and Scheduling for Optimal Productivity
  • Chapter 10 The Importance of Compensation in Productivity
  • SECTION 3 Engineering Economics
  • Chapter 11 Basic Principles of Engineering Economic Analysis
  • Chapter 12 Cost Estimation
  • Chapter 13 Decision Making under Risk and Uncertainty
  • Chapter 14 Life Cycle Costing with Application to Electric Energy Costing
  • Chapter 15 Cost Accounting and Management
  • Chapter 16 Case Study: Cost Growth for Space Systems
  • SECTION 4 Human Factors, Ergonomics, and Safety
  • Chapter 17 Macroergonomics: Beyond the Human-Machine Interface
  • Chapter 18 Personalizing Ergonomics for the Changing Workforce
  • Chapter 19 Designing, Implementing, and Justifying an Ergonomics Program
  • Chapter 20 Occupational Ergonomics in Construction
  • Chapter 21 Ergonomics of Sedentary Interventions for the Office Workplace
  • Chapter 22 Psychophysiological Assessment of Mental Workload
  • Chapter 23 Work Analyses Methods to Determine Cognitive Engineering Requirements for Complex Industrial Systems
  • Chapter 24 Safety Analytics
  • Chapter 25 Automation and Autonomous Systems: Benefits and Concerns of the Human-in-the-Loop Transition and Implementation
  • SECTION 5 Facility Logistics
  • Chapter 26 Facilities Layout in Manufacturing and Service Industries: Past Practices and Future Trends
  • Chapter 27 The Impact of Automation, Sensors, Internet of Things, and Industry 4.0 on Facility?Logistics
  • Chapter 28 E-Commerce Warehousing: Advances in Material Handling Systems
  • SECTION 6 Operations Research
  • Chapter 29 Operations Research: An Overview
  • Chapter 30 Optimization Models and Methods
  • Chapter 31 Simulation in Industrial Engineering
  • Chapter 32 An Overview of Analytics
  • SECTION 7 Statistics and Probability
  • Chapter 33 Principles and Applications of Probability
  • Chapter 34 Applied Statistics for Industrial and Systems Engineering
  • Chapter 35 Stochastic Models for Industrial and Systems Engineering
  • Chapter 36 Machine Learning and Industrial Applications
  • Chapter 37 Forecasting and Industrial Applications
  • SECTION 8 Supply Chains
  • Chapter 38 Fundamentals of Supply Chain Operations
  • Chapter 39 Customer Interfaces: Predicting, Planning, and Influencing Demand
  • Chapter 40 Supply Chain Inventory Management
  • Chapter 41 Transportation Management
  • Chapter 42 Supply Chain Structure and Design
  • Chapter 43 Managing Supply Sources Through Supplier Relationship Management
  • Chapter 44 The Role, Value, and Relevance of Information Sharing and Coordination in Supply Chains
  • SECTION 9 Quality
  • Chapter 45 Quality History and Evolution
  • Chapter 46 Quality Concepts and Models
  • Chapter 47 Quality Fundamentals
  • Chapter 48 Quality Planning and Design
  • Chapter 49 Quality Control
  • Chapter 50 Quality Improvement
  • Chapter 51 Reliability and Maintainability
  • Chapter 52 Quality Management
  • SECTION 10 Product and Service System Design
  • Chapter 53 Service Systems Design
  • Chapter 54 Effective Design Process Management: Quality and?Creativity
  • Chapter 55 Analytics and Optimization for Design for X
  • Chapter 56 OR Models for Service Systems Design
  • Chapter 57 Service Design to Exceed Customer and Associate Expectations
  • Chapter 58 Product-Service System: Definitions and Design Approaches
  • Chapter 59 Product System Design: How to Create Products for Different Customers
  • SECTION 11 Manufacturing Models and Analysis
  • Chapter 60 Additive Manufacturing (3D Printing)
  • Chapter 61 Manufacturing Sensors and?Controls
  • Chapter 62 Process Engineering
  • Chapter 63 Metrology in Manufacturing
  • Chapter 64 Remanufacturing and the Circular Economy
  • Chapter 65 Cybermanufacturing
  • Chapter 66 Factory Analytics
  • SECTION 12 Systems Engineering
  • Chapter 67 Foundations of Systems Engineering
  • Chapter 68 The Systems Engineering Processes
  • Chapter 69 Cross-Cutting Systems Engineering Methods
  • Chapter 70 Specialty Engineering Activities
  • SECTION 13 Engineering Management
  • Chapter 71 Soft Skills in Industrial Engineering and Management
  • Chapter 72 Undergraduate Systems Engineering Management
  • Chapter 73 Applications of Project Management to Manufacturing
  • Chapter 74 Lean Systems in Engineering Management
  • Chapter 75 Cognitive and Human Factors Modeling for Engineering Management
  • Chapter 76 Quality Systems and Engineering Management Applications
  • Chapter 77 The Industrial Engineer as a Manager
  • Chapter 78 Functions of an Engineering Manager
  • Chapter 79 Lean Six Sigma: Basic Concepts
  • Chapter 80 Project Management in the Service Industry
  • Chapter 81 Globalization: Challenges for Managing in a Global Economy
  • Chapter 82 Project Management for the Industrial Engineer
  • Chapter 83 Engineering Ethics: Applications to Industrial Engineering
  • Chapter 84 Digital Data Transformation and Its Applications
  • Index.

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