The National Network for Manufacturing Innovation has as its primary objective the development of cutting-edge manufacturing technology. In his FY 2013 budget proposal, President Obama announced this interagency initiative. It will bring together community colleges and universities engineering schools to help commercialize innovative manufacturing technology.
Manufacturing plays an important role in the American economy. American workers are able to find employment in this industry. To stay competitive, manufacturing firms invest in technological innovations that increase productivity and reduce labor costs. These innovations include automation and green energy sources. Companies are also looking for ways to decrease machine downtime. This includes innovative products like autonomous mobile robots, which reduce labor costs and increase productivity. Smart sensors and other technologies are being used to reduce waste.
The "Maker's Economy" will revolutionize how products are made. This economy is one in which manufacturers play an active part in the design and construction of new products using readily available technology. These innovations will be used by the manufacturing industry to improve productivity, operational efficiency and decision-making. It is expected that it will also contribute to the nation's overall productivity. The United States is a global leader in manufacturing.
The "Maker's Economy", which is based on various technologies such as artificial intelligence and smart factories, relies heavily on these technologies. These innovations enhance manufacturing productivity by increasing worker efficiency as well as decreasing the time taken to produce a product. The Industrial Internet of Things uses sensors to aid in tasks. It also monitors industrial assets continuously. Secure connectivity is crucial for IIoT. It will also improve warehouse efficiency and visibility into the supply chain.
The National Network for Manufacturing Innovation is composed of at least 15 manufacturing institutes. It is expected to accelerate the development and application of manufacturing technologies. This network will also include public/private partnerships between government agencies and private companies.
There are currently 14 American manufacturing innovation institutes. Another three will be funded in May 2013 by the Commerce Department. Two Institutes will be funded by the National Institute of Standards and Technology. Over five to seven years, this will give each institute a funding total of $70 million.
The Institutes for Manufacturing Innovation will each have a unique research concentration. They will act as innovation centers for the state and local economies. These Institutes will also help manufacturers integrate their capabilities. These institutes offer access to cutting edge technology and will also provide training opportunities for workers. These institutes can also be used to help manufacturers tackle cross-cutting problems in advanced manufacturing.
The Network for Manufacturing Innovation aims to achieve a wide range of goals. These include accelerating the commercialization innovative manufacturing technologies, closing the gap between laboratory research, market applications, strengthening state and local economies, and bridging the gap in between laboratory research, market applications, and strengthening the state and local economy. The institutes will be operated by the U.S. Department of Energy (DOE), and the program will be funded through the U.S. Commerce Department's National Institute of Standards and Technology.
FAQ
What is meant by manufacturing industries?
Manufacturing Industries are companies that manufacture products. Consumers are the people who purchase these products. These companies use various processes such as production, distribution, retailing, management, etc., to fulfill this purpose. They make goods from raw materials with machines and other equipment. This includes all types manufactured goods such as clothing, building materials, furniture, electronics, tools and machinery.
What skills is required for a production planner?
Production planners must be flexible, organized, and able handle multiple tasks. Effective communication with clients and colleagues is essential.
Can certain manufacturing steps be automated?
Yes! Yes. The Egyptians discovered the wheel thousands and years ago. Nowadays, we use robots for assembly lines.
Actually, robotics can be used in manufacturing for many purposes. These include:
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Robots for assembly line
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Robot welding
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Robot painting
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Robotics inspection
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Robots create products
Automation could also be used to improve manufacturing. For instance, 3D printing allows us make custom products and not have to wait for months or even weeks to get them made.
What can I do to learn more about manufacturing?
Experience is the best way for you to learn about manufacturing. But if that is not possible you can always read books and watch educational videos.
Statistics
- It's estimated that 10.8% of the U.S. GDP in 2020 was contributed to manufacturing. (investopedia.com)
- [54][55] These are the top 50 countries by the total value of manufacturing output in US dollars for its noted year according to World Bank.[56] (en.wikipedia.org)
- According to a Statista study, U.S. businesses spent $1.63 trillion on logistics in 2019, moving goods from origin to end user through various supply chain network segments. (netsuite.com)
- In 2021, an estimated 12.1 million Americans work in the manufacturing sector.6 (investopedia.com)
- According to the United Nations Industrial Development Organization (UNIDO), China is the top manufacturer worldwide by 2019 output, producing 28.7% of the total global manufacturing output, followed by the United States, Japan, Germany, and India.[52][53] (en.wikipedia.org)
External Links
How To
Six Sigma and Manufacturing
Six Sigma is defined as "the application of statistical process control (SPC) techniques to achieve continuous improvement." It was developed by Motorola's Quality Improvement Department at their plant in Tokyo, Japan, in 1986. Six Sigma's basic concept is to improve quality and eliminate defects through standardization. In recent years, many companies have adopted this method because they believe there is no such thing as perfect products or services. The main goal of Six Sigma is to reduce variation from the mean value of production. You can calculate the percentage of deviation from the norm by taking a sample of your product and comparing it to the average. If the deviation is excessive, it's likely that something needs to be fixed.
Understanding the dynamics of variability within your business is the first step in Six Sigma. Once you've understood that, you'll want to identify sources of variation. Also, you will need to identify the sources of variation. Random variations occur when people make mistakes; systematic ones are caused by factors outside the process itself. These are, for instance, random variations that occur when widgets are made and some fall off the production line. However, if you notice that every time you assemble a widget, it always falls apart at exactly the same place, then that would be a systematic problem.
Once you've identified where the problems lie, you'll want to design solutions to eliminate those problems. The solution could involve changing how you do things, or redesigning your entire process. To verify that the changes have worked, you need to test them again. If they didn't work, then you'll need to go back to the drawing board and come up with another plan.