Control of Manufacturing Processes with Odoo 17 AI-Powered

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Learn about manufacturing systems and ways to analyze them in terms of material flow and storage, information flow, capacities, and times and durations of events, especially random events.

  • you will learn how to analyze manufacturing systems to optimize performance and control cost. You will develop an understanding of seemingly opaque production lines with a particular emphasis on random disruptive events – their effects and how to deal with them, as well as inventory dynamics and management.

  • Manufacturing systems are complex and require decision-making skills and analytical analysis. Managers and practitioners use a wide variety of methods to optimize the performance of manufacturing systems and control costs. The many processes and functions involved in building and maintaining these systems demand a high-level of knowledge.

  • The topics covered will provide the basis for learners to continue into the manufacturing field in such roles as an operations manager or supply chain manager.

Manufacturing plays a key role in economic growth and innovation, making it worthwhile to build skills for this line of work. Discover the sustainable practices and technological advancements transforming this dynamic field with the online courses Control of Manufacturing Processes with Odoo 17 AI-Powered .

Manufacturing refers to the process of transforming raw materials into finished products through methods like assembly, fabrication, or machining. Beyond these techniques, it entails various activities, such as design, production planning, quality control, and distribution. The scope of manufacturing extends to multiple sectors, including automotive, electronics, pharmaceuticals, aerospace, and consumer goods.

Manufacturing course curriculum

  • A manufacturing course online covers a wide range of topics related to the principles, processes, and practices involved in manufacturing. Some common areas of focus may include:

  • Introduction to manufacturing: Examining manufacturing processes, technologies, and their significance in various industries.

  • Manufacturing systems: Studying different types of manufacturing systems, including job shop, batch production, assembly line, and continuous production, along with their advantages and limitations.

  • Production planning and control: Understanding the principles of production planning, scheduling, inventory management, and resource allocation to optimize production efficiency.

  • Quality control and assurance: Exploring techniques and methods for quality control, inspection, statistical process control, and quality assurance in manufacturing processes.

  • Lean manufacturing: Highlighting lean principles, such as waste reduction, continuous improvement, value stream mapping, and just-in-time production, for achieving operational excellence .

  • Manufacturing automation: Looking at automation technologies, including robotics, computer numerical control (CNC), programmable logic controllers (PLC), and their roles in improving manufacturing efficiency and productivity.

  • Materials and manufacturing processes: Learning about the different materials used in manufacturing, such as metals, polymers, and composites, and an understanding of manufacturing processes like machining, casting, forming, and joining.

  • Supply chain management: Mastering supply chain concepts, logistics, procurement, supplier management, and coordination to ensure efficient material flow and on-time delivery in manufacturing operations.

  • Sustainable manufacturing: Emphasizing sustainable manufacturing practices, eco-design principles, energy-efficient manufacturing, waste reduction, and environmental impact mitigation in the manufacturing industry.

  • Emerging technologies in manufacturing: Focusing on emerging trends and technologies like additive manufacturing (3D printing), the Internet of Things (IoT), digital manufacturing, and advanced analytics shaping the future of the manufacturing sector.

There are many manufacturing jobs available across various sectors. Here are some examples of roles related to manufacturing:

  • Production supervisor: Overseeing day-to-day operations on the production floor, managing personnel, coordinating schedules, and ensuring production targets are met efficiently and safely.

  • Manufacturing engineer: Developing and improving manufacturing processes, optimizing production efficiency, conducting process validations, and collaborating with cross-functional teams to drive continuous improvement.

  • Quality control inspector: Inspecting and testing products to ensure they meet quality standards, identifying defects or deviations, and implementing corrective actions to maintain product quality and compliance.

  • Supply chain manager: Managing the flow of materials, coordinating with suppliers, overseeing inventory management, and optimizing logistics to ensure timely production and delivery of goods.

  • CNC machinist: Operating computer numerical control (CNC) machines, programming machine instructions, setting up tools, and producing precision components based on technical specifications.Footnote14

  • Industrial designer: Creating product designs, conceptualizing prototypes, collaborating with engineering and production teams, and considering aesthetics, functionality, and manufacturability.

  • Lean manufacturing specialist: Implementing lean principles and methodologies to optimize processes, eliminate waste, and improve overall efficiency in manufacturing operations.

  • Maintenance technician: Performing routine maintenance, troubleshooting equipment issues, conducting repairs, and ensuring smooth operation of machinery and production systems.

  • Automation engineer: Designing, programming, and maintaining automated manufacturing systems, including robotic systems, to streamline production processes and increase efficiency.

  • Materials planner: Managing the procurement and inventory of materials, coordinating with suppliers, forecasting demand, and ensuring availability of materials for production

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




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