Principles of Manufacturing with MIT
Skills Covered: Manufacturing Systems, Toyota Production System (TPS), Probability Models, Optimization Models, Manufacturing Process Control, Statistical Process Control (SPC), Design of Experiments (DOE), Management in Engineering, Accounting and Planning, Strategy and Leadership, Supply Chains for Manufacturing, Inventory Analytics, Capacity Analytics, Supply Chain Planning, Manufacturing Planning, Material Requirements Planning (MRP)
ABOUT THIS MICRO MASTER
Develop the fundamental skills needed for global excellence in manufacturing and competitiveness with the Principles of Manufacturing MicroMasters Credential, designed and delivered by MIT’s #1-world ranked Mechanical Engineering department. Build your career with the credential or use it as credits towards a Master’s Degree by applying to MIT’s world-renowned Master of Engineering in Advanced Manufacturing and Design Blended Program.
This program provides students with a fundamental basis for understanding and controlling rate, quality and cost in a manufacturing enterprise.
The Principles of Manufacturing are a set of elements common to all manufacturing industries that revolve around the concepts of flow and variations. These principles have emerged from working closely with manufacturing industries at both the research and operational levels.
Targeted towards graduate-level engineers, product designers, and technology developers with an interest in a career in advanced manufacturing, the program will help learners understand and apply these principles to product and process design, factory and supply chain design, and factory operations.
This curriculum focusses on the analysis, characterization and control of flow and variation at different levels of the enterprise through the following subject areas:
- Unit Process Variation and Control: Modeling and controlling temporal and spatial variation in unit processes
- Factory Level System Variation and Control: Modeling and controlling flows in manufacturing systems with stochastic elements and inputs.
- Supply Chain – System Variation and Control: How to operate and design optimal manufacturing-centered supply chains.
- Business Flows: Understanding the uses and flow of business information to start up, scale up and operate a manufacturing facility.
WHAT YOU WILL LEARN
- A new perspective for design and operational decision making at all levels of manufacturing, in the context of volume manufacturing, where rate, quality, cost and flexibility are the key metrics
- How to operate and control unit processes to ensure maximum quality using basic and advanced statistical and feedback control methods
- How to design and operate systems of processes with optimal capacity, resilience and inventory
- How to design and operate optimal supply chain systems
- The financial underpinnings of a manufacturing enterprise, including new ventures
- Exciting career opportunities in positions such as Manufacturing Engineer, Design Engineer, Product Development Engineer, Process Development Engineer, Supply Chain Engineer (Source: MIT Mechanical Engineering department)
- Mean salary ranges of $70,000-95,000 (U.S. only; source: Indeed.com)
- According to edX, 100% of graduates from MIT’s Masters of Engineering in Advanced Manufacturing & Design program are successfully employed within 6 months of completion
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