Toyota production system : an integrated approach to just-in-time
安弘 門田
- Year
- 2012
- Citations
- 236
Abstract
Total Framework of the Toyota Production System Primary Purpose Kanban System Production Smoothing Shortening Setup Time Process Layout for Shortened Lead Times Standardization of Operations Autonomation Improvement Activities The Goal of TPS Summary Implementation Steps for the Toyota Production System Introductory Steps to the Toyota Production System Introduction of JIT at Toyo Aluminum- A Case Study SUBSYSTEMs Adaptable Kanban System Maintains Just-In-Time Production Pull System for JIT Production What Is a Kanban? Kanban Rules Other Types of Kanban Supplier Kanban and the Sequence Schedule Used by Suppliers Monthly Information and Daily Information Later Replenishment System by Kanban Sequenced Withdrawal System by the Sequence Schedule Problems and Countermeasures in Applying the Kanban System to Subcontractors Guidance by the Fair Trade Commission Based on the Subcontractors Law and the Anti-monopoly Law Supplier Kanban Circulation in the Paternal Manufacturer Practical Examples of Delivery System and Delivery Cycle Smoothed Production Helps Toyota Adapt to Demand Changes and Reduce Inventory Smoothing of the Total Production Quantity Demand Fluctuation and Production Capacity Plan Smoothing Each Model's Production Quantity Comparison of the Kanban System with MRP Summary of the Concept of Production Smoothing The Information System for Supply Chain Management between Toyota, Its Dealers, and Parts Manufacturers The Order Entry Information System Monthly Production System The Information System between Toyota and Parts Manufacturers New Toyota Network System (TNS) Production Planning System at Nissan How Toyota Shortened Production Lead Time Four Advantages of Shortening Lead Time Components of Production Lead Time in a Narrow Sense Shortening Processing Time through Single-Unit Production and Conveyance Shortening Waiting Time and Conveyance Time A Broad Approach to Reducing Production Lead Time Machine Layout, Multi-Functional Workers, and Job Rotation Help Realize Flexible Workshops Shojinka: Meeting Demand through Flexibility Layout Design: The U-Turn Layout Attaining Shojinka through Multi-Functional Workers One-Piece Production in Practice Requirements for One-Piece Production Resistance to Working Standing Up Resistance to Multi-Skilling Barriers to Autonomation Attaching Castors Smoothed Production An Example of Improvement for One-Piece Flow: A Factory Producing Cabinets for Use as Flat-Screen Television Stands Standard Operations Can Attain Balanced Production with Minimum Labor Goals and Elements of Standard Operations Determining the Components of Standard Operations Proper Training and Follow-Up: The Key to Implementing a Successful System Reduction of Setup Time-Concepts and Techniques Effects of Shortening the Setup Time Setup Concepts Concept Application 5S-Foundation for Improvements 5S Is to Remove Organizational Slack Visual Control Practical Rules for Seiton Seiso, Seiketsu, Shitsuke Promotion of 5S System Autonomous Defect Control Ensures Product Quality Development of Quality Management Activities Statistical Quality Control Autonomation Autonomation and the Toyota Production System Robotics Company-Wide Quality Control Cross-Functional Management to Promote Company-Wide Quality Assurance and Cost Management Introduction Quality Assurance Cost Management Organization of the Cross-Functional Management System Kaizen Costing Concept of Kaizen Costing Two Types of Kaizen Costing Preparing the Budget Determination of the Target Amount of Cost Reduction Kaizen Costing through Management by Objectives Measurement and Analysis of Kaizen Costing Variances Material Handling in an Assembly Plant The Parts Supply System in an Assembly Plant A System for Supplying Parts in Sets (the SPS, or Set Parts System) Empty-Handed Transportation Further Practical Study of the Kanban System Maximum Number of Production Kanban to be Stored Triangular Kanban and Material Requisition Kanban on a Press Line Control of Tools
Keywords
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