The Maker Movement
Life is pretty cushy. We long ago stopped having to make everything we need: forging tools, handcrafting shoes from hides and weaving textiles for clothing. Manufacturers eventually specialized where they had comparative advantage and produced at scale. Specialization led to more trade in goods and services. Today, anything we need can be obtained at the push of a computer button from almost anywhere in the world.
While much attention is being paid to the potential for new technologies to displace manufacturing workers, there’s an interesting phenomenon afoot. Bits and bytes are bringing us back to our “maker” roots by making information and technologies more accessible to everyone. The smallest inventors and producers can integrate into globally distributed production chains and sell into global markets. Basically, trade is providing us the luxury of producing again at a small scale, and it’s the art of inventing nimbly and producing small that just might help us stay globally competitive.
Re-Making our Workforce
“Makerspaces,” TechShops and FabLabs are popping up in cities all over the country and they are playing an increasingly vital role in education, workforce development, entrepreneurship and even revolutionizing advanced manufacturing.
Memberships give hobbyists, tinkerers, students and entrepreneurs alike access to tools, machines and materials to gain experience with 3D printing, CAD/CAM, electronics, robotics, plastics and composites, fabrication, welding, coding and programming, woodworking and more. Students and young workers can be exposed to industrial careers in a relatively low-cost, low-risk environment, picking up skills in weeks — not months and years. They can create portfolios to demonstrate competency in the skills employers require.
By partnering with local colleges and employers, training in Makerspaces can culminate in recognized and portable credentials that prove mastery of a specific skill or set of equipment, enabling companies to develop talent pipelines with less direct investment. Meanwhile, students are not just gaining experience working with materials and machines. They are also putting math and measurement into practice, reading blueprints, and using design software — the knowledge skills associated with modern manufacturing and foundational competencies for a wide variety of jobs that lie in between traditional “blue collar” and executive levels.
Small Batch Production
“Making” can create new pathways to working at established manufacturing companies, but it is also spawning a resurgence of custom fabricators who are positioned for small-batch or on-demand manufacturing. The current trend of “niche consumerism” is responding to demand for tailored products in small lots, even by the big brands.
Makers can iterate quickly in response to consumer feedback or engage in rapid prototyping to optimize product design. Makers can offer these services to larger firms or they can leverage the resources of Makerspaces to keep costs down and retain control during product development, iteration and initial production of their own invention. The difficulty of communicating well with manufacturers or visiting facilities in China is a common refrain for small entrepreneurs.
Makers and Makerspaces are attracting the attention of major corporations. GE and National Instruments were among the first to emulate Makerspaces to support open innovation on their corporate campuses. Ford Motor Company worked with a company called TechShop to build a world-class Makerspace for Detroit, becoming the facility’s anchor tenant. Affording their engineers the opportunity to cross-pollinate with other inventors and have a freer hand in direct and more rapid prototyping, Ford says that within one year, the company doubled the number of patents the company produced.
Large companies recognize that good ideas can come from anywhere, from hobbyists to amateur scientists and roboticists. Some Makerspaces cater more to small designers and inventors, but others are more like modern-day Edison workshops hosting sophisticated “experiments” employing biotechnology, nanotechnology and additive manufacturing. As such, they have become ecosystems of innovation where individuals, small businesses and large corporations can come together to incubate and accelerate ideas in a decentralized and agile network — emulating the same set of activities and interactions that were once only housed inside the corporation.
Putting compact versions of industrial tools in the hands of millions more people means that inventors can get a “minimum viable product” out in the world faster and at much lower cost. Small and growing manufacturers can take smaller bets on the market with lower volume commitments or put a wider variety of products out for testing consumer preferences.
Specialty manufacturers that can re-tool quickly are filling an increasingly important role offering “manufacturing-as-a-service.” The Maker Movement encourages innovation through co-creation and crowdsourced designs, rapid prototyping and experimentation with new production processes. Maker facilities enable micro-factories that can service orders from anywhere in the world. Some notable inventions in Makerspaces have even transformed commerce itself. For example, millions of small businesses now use Square to take payments.
Join the Movement
Makers aren’t likely to replace mass production anytime soon, but they are an important source for training the next generation of inventors and manufacturing workers. Makerspaces are poised to drive real economic benefits for cities that embrace and support them. For example, the Brooklyn Navy Yard brings together makers, artisans, and manufacturers. The more than 10,000 people working within the complex generate some $390 million in economic output, supporting an estimated $2 billion in indirect earnings and an additional 15,500 jobs in 2011. According to the Pratt Center for Community Development, it’s a model producing similar results from across the country from Chicago to Minden, Nevada.
The famed Defense Advanced Research Projects Agency (DARPA) has supported a TechShop in Pittsburgh and provides membership for thousands of veterans. With funding from the Department of Labor, the AFL-CIO and Carnegie Mellon University partnered with TechShop Pittsburgh to create apprenticeship programs for workers and to encourage startups to manufacture locally. As Brooking’s Mark Muro has written, the Maker Movement is “a deeply American source of decentralized creativity for rebuilding America’s thinning manufacturing ecosystems…hacking the new industrial revolution one town at a time.”
Makers are able to access the materials and tools they need because of trade. Take the 3D printer, for example. The global market for 3D printers, plastics and related services have exploded in recent years. And perhaps one could even be so bold as to say that it’s the expansion of global trade that affords us the opportunity to rediscover and reinvent the art of “making” itself, which could in turn profoundly impact what we make and what we trade.
Andrea Durkin is the Editor-in-Chief of TradeVistas and Founder of Sparkplug, LLC. Ms. Durkin previously served as a U.S. Government trade negotiator and has proudly taught international trade policy and negotiations for the last fourteen years as an Adjunct Professor at Georgetown University’s Master of Science in Foreign Service program.
This article originally appeared on TradeVistas.org. Republished with permission.