3D printing set for speedy delivery

According to a new report, the United States Postal Service (USPS) believes 3D printing could be a financial boon for the agency, increasing annual package revenue by $323 to $646 million in the future.

“As 3D printing spreads and moves production closer to consumption, it could have major implications for everyone along existing supply chains, including the U.S. Postal Service. 3D printing could lead to more single-item parcels being shipped to consumers over shorter distances, instead of hundreds of thousands of identical items sent by containerized cargo over vast distances. It could also lead to reduced fuel consumption and exhaust emissions, as well as less material waste due to precise manufacturing.”

As previously reported in Bits & Pieces, 3D printing is set to soar with analysts forecasting the industry to reach $16.2 billion by 2018 – representing an expected compound annual growth rate (CAGR) of 45.7% from 2013 to 2018. Given its potential size, the USPS believes 3D printing could start to reshore previously outsourced manufacturing back to the United States. In the very near future, it appears 3D printing could be a powerful engine for job creation and economic growth.

“It is often not cost effective for private delivery firms to make separate stops to deliver small, relatively inexpensive packages — particularly in rural areas. However, the Postal Service is already visiting these locations every day. As such, other delivery firms often use the Postal Service for last-mile delivery. In fact, nearly two thirds of lightweight, commercial packages are delivered to their final destination by the Postal Service. This is directly relevant to 3D printing, as the vast majority of 3D printed consumer goods are relatively lightweight.”

Aside from delivery, the postal service looks to utilize the technology to protect copyrighted content through the development of a trusted online marketplace to allow the safe transmission of designs and integrate it with physical product transfers with carriers. As the report states, this could bring an paralleled level of security, confidentiality, and privacy.

Internally, the next-gen technology could also provide operational benefits for the agency, such as the printing of spare parts to repair vehicles and mail processing equipment.

“The 3D printing revolution has only just begun. 3D printing has the potential to be amazingly disruptive, and some people think the changes brought on by it will exceed even those of the Internet.”

3D printing isn’t the only Atmel-powered movement the USPS is embarking on. Last month, the Office of Inspector General reported that the postal service was investing up to $100,000 to explore ways in which it could utilize low cost sensors and Internet of Things-related technologies.

 

Atmel celebrates first-ever White House Maker Faire

Atmel Corporation, a global leader in microcontroller (MCU) and touch solutions, calls the first-ever White House Maker Faire a success. With a goal of making technology simple, accessible and easy to use, Atmel is an ardent supporter of the Maker Movement and shares the passion for tomorrow’s innovators, visionaries and manufacturers.

From powering 3D printers to Arduino boards, Atmel’s 8 and 32-bit microcontrollers enable makers to create an extensive range of projects, further strengthening the DIY experience and government funded initiatives such as STEM, (Science, Technology, Engineering and Math).

“The Maker Movement is the next great revolution of industry and embodies the American Spirit,” said Sander Arts, vice president of marketing at Atmel.

“We congratulate the White House for putting on such a great event and appreciate its recognition and advocacy for the Maker Movement. Whether a hobbyist or an engineer, the power of this community is inspiring and Atmel is honored to be at its heart, providing the technologies that empower makers of all ages to turn imagination into reality.”

As seen at Atmel’s booth during Maker Faire Bay Area 2014, Atmel attended the White House Maker Faire joined by key makers who showcased their technologies including Quin Etnyre, age 13, CEO of QTechknow and Sylvia Todd, age 12, from Super Awesome Sylvia.

Additionally, Arduino, the popular open source platform and community for prototyping, was represented at the White House Maker Faire. Leveraging Atmel’s technology in a series of development boards, communities such as Arduino aim to enable open source collaboration, foster creativity and promote tinkering.

Follow the whereabouts of Atmel, Quin and Sylvia online and join the conversation with @Atmel and @TheAVRMan using the hashtag #NationofMakers.

For questions about the event and Atmel’s participation at White House Maker Faire, please email events@atmel.com.

More Information

Atmel at White House Maker Faire 2014: http://www.atmel.com/atmel-makes/default.aspx
About Maker Faire: http://makerfaire.com/
Embedded Design Blog: www.atmelcorporation.wordpress.com
Atmel Twitter: www.atmel.com/twitter
Atmel AVR Man: https://twitter.com/TheAVRMan
LinkedIn: www.atmel.com/linkedin

Atmel celebrates Makers with President Obama

As Tom Kalil and Jason Miller note on the White House blog, the United States has always been a nation of tinkerers, inventors and entrepreneurs.

“In recent years, a growing number of Americans have gained access to technologies such as 3D printers, laser cutters, easy-to-use design software and desktop machine tools. These tools are enabling more Americans to design and build almost anything,” Kalil and Miller write.

“Across the country, vibrant grassroots communities of innovators, visionaries and manufacturers are organizing Maker Faires, creating local Makerspaces and mentoring the next generation of inventors.”

According to the White House, the rise of the Maker Movement represents a huge opportunity for the United States, with new tools for democratized production boosting innovation and entrepreneurship in manufacturing.

Indeed, Making is capable of inspiring and empowering more young people to excel in design and STEM (science, technology, engineering and math), as well as helping them pursue careers in manufacturing.

That’s why President Obama is hosting the first-ever White House Maker Faire today, with Makers, innovators and entrepreneurs of all ages showcasing their cutting-edge tools and projects.
 We at Atmel are proud to be at the very heart of the global Maker Movement, with Quin Etnyre and Super Awesome Sylvia (both sponsored by Atmel) attending the DC Faire.

Indeed, our microcontrollers (MCUs) power a wide range of open source platforms and devices, from 3D printers to wildly popular Arduino boards.

For us, every Maker Faire has always been the Greatest Show (and Tell) on Earth – a family-friendly venue of invention, creativity, resourcefulness and a celebration of DIY culture. Simply put, it’s a place where people of all ages and backgrounds gather together to show what they are making and share what they are learning, whether in Washington DC, New York, San Mateo or Shanghai.

Working together, we can prove that in America, the future really is what we make of it.

Tom Kalil is Deputy Director for Technology and Innovation at the White House Office of Science and Technology Policy and Jason Miller is Special Assistant to the President for Manufacturing Policy at the National Economic Council.

Atmel @ Maker Faire Day 0 (sneak peek)

Atmel is getting ready to take center stage at Maker Faire Bay Area 2014 in San Mateo on May 17th and 18th.

Our team is currently setting up booth #205, where we’ll be showcasing a wide range of Maker projects, platforms and devices, including the new Arduino Zero which is powered by Atmel’s ARM-based SAMD21 microcontroller (MCU).

So, what else can you find in booth #205?

• Wearable electronics and cosplay
• MicroView
• ProtoSnap Pro-Mini
• Red Boards
• FuzzBots
• Phonear
• Touch Boards
• Hexabugs
• uToT ‘bots
• 3D printers
… And more!

Maker Faire Bay Area 2014 will kick off at the San Mateo Event Center in San Mateo, CA, on Saturday, May 17, from 10am to 8pm and Sunday, May 18, from 10am to 6pm.

Tickets can be purchased on-site at Maker Faire Bay Area 2014 on May 17 and 18, 2014 ($25.00 – $40.00 for a full day pass).

Can’t make it to the Faire? You can follow @Atmel live on Twitter for event updates, or join the conversation by tweeting #AtmelMakes.

Let’s Make the world a better place

It was 1974 when tech pioneer Ted Nelson first asked a nascent industry to hand over “computer power to the people.” A few years later, Commodore founder Jack Tramiel expressed similar sentiments, proclaiming that “we need to build computers for the masses, not the classes.”

As we’ve previously discussed on Bits & Pieces, empowering individuals and communities is a core value of the international Maker Movement. Makers, with an open source philosophy, affordable technology and “can do” attitude, are truly helping to make the world a better place.

Indeed, medical implants designed with 3D printers (long championed by Makers) are saving lives, while 3D printed prosthetics allow physicians to restore physical capabilities lost in accidents or at birth.

Makers are also active in agriculture to ensure an organic, green and sustainable food supply for us all. To be sure, Atmel-based Arduino boards are currently being used to facilitate a plethora of open source platforms tasked with regulating everything from urban-based aquaponics to rural greenhouses constructed out of recyclable materials.

Photo Credit: Scott Taylor, Sun Journal

In addition, Makers are at the forefront of reversing bee colony collapse disorder, with the Atmel-powered (ATmega32U4 MCU) Smart Citizen Kit (SCK) currently monitoring 3D-printed hives around the world.

Unsurprisingly, Makers looking to the future are designing open source home automation platforms to help individuals conserve water and reduce energy consumption by linking various “smart” appliances to the rapidly evolving Internet of Things.

Last, but certainly not least, open source Arduino boards used by Makers across the globe are an important tool for the STEM community (science, technology, education and mathematics), with science and computing teachers in secondary schools and universities choosing the popular platform to teach students the basic principles of programming and computational thinking.

We at Atmel are proud to be at the very heart of the Maker Movement, with microcontrollers that power a wide range of open source platforms and devices, from 3D printers to Arduino boards. For us, Maker Faire is one of the Greatest Show (and Tell) on Earth – a family-friendly showcase of invention, creativity, resourcefulness and a celebration of DIY culture. Simply put, it’s a place where people of all ages and backgrounds gather together to show what they are making and share what they are learning.

So be sure to drop by the Atmel booth (#205) at Maker Faire Bay Area on May 17th and 18th to meet our star-studded lineup of Makers and presenters, including Mel Li, Trevor Zylstra, Quin Etnyre, Pamungkas Prawisuda Sumasta, Super Awesome Sylvia, Matt Johnson, Bob Martin and Dan Ujvari.

Can’t make it to the Faire? You can follow @Atmel live on Twitter for event updates, or join the conversation by tweeting #AtmelMakes.

Why Shenzhen is the factory of the world for Makers

Writing for the UK-based Guardian, Georgina Voss notes that hosting a Maker Faire in Shenzhen, which some describe as the “factory of the world,” makes quite a lot of sense.

Indeed, Dale Dougherty, founder of MAKE Magazine and creator of Maker Faire, recently confirmed that the first official Maker Faire held in Shenzhen earlier this month successfully celebrated the emergence of the Maker Movement in China, while recognizing the significance of the city as a global capital for DIY culture.

“The city’s history rippled into Maker Faire Shenzhen, which sat in the shadow of high-rises. As expected, many of the classic Maker Faire features were in place: soldering workshops, talks by ‘Makers’, people looking awkward in Google Glass,” Voss explains.

“Yet Maker Faires are often characterized by lots of DIY projects and arts-tech mash-ups and these were conspicuously lacking. Instead, most stalls were occupied by fully realized electronics products – brainwave-controlled drones, robots, lots and lots of 3D printers – either ready for market, or in their beta stage and shipping later in the year.”

According to Voss, the region’s strengths in consumer electronics may also be particularly well-suited to the potential outputs of ‘Maker to Market’ outputs, starting with simplified prototypes built on open hardware technologies such as Arduino boards.

“Several hardware start-up accelerators have also set up shop in the city, including Haxlr8r and PCH’s Highway 1, and they acknowledge that […] regional innovation systems exist: participants spend time in Shenzhen to learn about the manufacturing and supply chain networks in the city, before being returned to the Bay Area to pitch for funding,” says Voss.

“The easy-to-use, flexible and low-cost technologies which underpin [accelerators] – open hardware microcontrollers and 3D printers, for example – have their own materiality and their own geography.”

Voss also points out that all of the factors which define Shenzhen as a competitive industry hub make it particularly attractive to Makers, including cheap and available raw materials, manufacturing skills and facilities, as well as clear entry points into supply chains.

“The ‘Maker’ identity can be framed by flattened shared qualities and values, working with technologies whose provenance is not always transparent. But nothing in technology is so simple or so isolated,” she concluded.

“Maker Faire Shenzhen shines a light on the externalities and ecosystems of making itself: the political regimes which regulate; the infrastructures which support it; the forms of work that drive it; and the culture and history that shape it.”

The full text of “Making in China: Maker Faire Shenzhen Highlights the Global Politics of the Maker Movement,” written by Georgina Voss is available on The Guardian here. Readers may also want to check out “Atmel looks back at Maker Faire Shenzhen” which can be read here.

From Shanzhai to OSHW: The Maker Movement in China

Although the Maker and open source hardware movements are a global phenomenon, the DIY culture in China can actually be traced back to the ancient concept of Shanzhai. As Gabrielle Levine, the newly appointed president of the Open Source Hardware Association (OSHWA) notes, China is going to be a huge driving force in the open source hardware landscape.

“There are many similarities between [the local concept of] Shanzhai and the open source hardware community,” Gabriella Levine told OpenElectronics in February. “Both Shanzhai and open source hardware projects borrow information, tools, source code, CAD files and techniques; both improve upon other’s work to accelerate development.”

SeeedStudio founder Eric Pan expressed similar sentiments during a recent interview with Atmel’s official blog, Bits & Pieces.

“MakerSpaces will likely enable a new wave of tech startups in China as in the US,” he confirmed.

“Clearly, hardware development is becoming a more agile process with the aid of [open source] prototyping tools like RepRap and Arduino boards – both of which are helping to facilitate innovation across the world and particularly in China.”

Similarly, David Li, co-founder of Shanghai’s first Maker Space, told The Economist that the DIY movement has inspired the creation of legitimate and innovative products, with socially progressive Makers teaming up with more traditional manufacturers in China.

We at Atmel are at the strategic heart of the international Maker Movement, with a comprehensive portfolio of versatile microcontrollers (MCUs) that power a wide range of Maker platforms and devices, including 3D printers (MakerBot Replicator 2 and RepRap), the vast majority of Arduino boards, as well as Adafruit’s Gemma, Trinket and Flora platforms.

Indeed, Arduino boards are currently used by millions of Makers, engineers, schools and corporations all over the world. At least 1.2 million Atmel-powered Arduino boards have been sold to date, with the ATmega328-based Uno being a particular Maker and prototyping favorite. Of course, stand-alone AVR microcontrollers like the tinyAVR lineup are also popular amongst the DIY crowd.

As we’ve previously discussed on Bits & Pieces, an increasing number of Makers are kicking off project prototyping with Atmel-based Arduino boards. Concurrently, we are also seeing a jump in professional engineers relying on Atmel-powered Arduino boards to create initial models for their devices, platforms and solutions.

Atmel-powered uArm

According to Gartner, 50% of companies expected to help build the rapidly evolving Internet of Things have yet to coalesce. This is precisely why Atmel views China’s Maker Movement as one of the primary tech incubators for future IoT companies and devices, many of which will undoubtedly use Atmel microcontrollers (MCUs) to power their respective platforms.

Atmel will proudly be attending Maker Faire Shenzhen this year on April 6-7. Our booth – #4 – is located right next to Center Stage. We’ll be showcasing a number of Atmel-powered products including a Zigebee-based lighting demo, robotic model car, various Seeeduino boards, the Rainbow Cube (LED light controlled by Atmel MCUs) and an e-ink badge.

I’ll also be giving a presentation about Atmel microcontrollers, the IoT and Makers at 2PM on April 7th at the Center Stage. Hope to see you there!

Atmel kicks off ToT selfie sweepstakes


Snap, smile and click! Atmel has kicked off its long-awaited Tech on Tour (ToT) selfie sweepstakes. 

So if you are attending one of our ToT events, or happen to see us stopping to refuel, be sure to come on over and take a selfie with the Atmel crew and our tech-packed mobile trailer. Don’t be camera shy, because you could win a brand new Samsung Galaxy Tab 3!

You can click here for additional details.

As we’ve previously discussed on Bits & Pieces, our tricked-out ToT mobile trailer allows visitors to interact with a wide range of next-gen Atmel tech, including AVR and ARM based microcontrollers, automotive and crypto solutions,microprocessors, Internet Of Things (IoT) products, wearable devices, 3D printers, touch sensors and XSense. 

If you don’t see a stop near you and think your city would enjoy Atmel’s traveling show, be sure to request one and we’ll see what we can do.

This weekend, Atmel’s ToT will be at SXSW in Austin, Texas. We’re based at the Hyatt Regency Austin from March 7-9, 2014, so be sure to stop by during the show to see our latest demos.

More specifically, you can check out:

• Agent smartwatch (Secret Labs) powered by Atmel’s ARM-based SAM4S and tinyAVR MCU
• Philips Hue Bulbs with Atmel‘s ZigBee and Lightweight Mesh Stack
• Turtle Beach i60 Wireless Gaming Headset with Atmel Wi-Fi
• Direct
Roku3 remote with Atmel Wi-Fi Direct
• MakerBot 3D Printer with Atmel AVR Microcontrollers
• ASUS T100 Transformer with Atmel’s MaxTouch T Series Cap Touch controller and XSense Metal mesh touch sensors

In addition, we’re proud to host a guest appearance by Autodesk, the very same folks behind the world famous Instructables and 123D Circuits.

Interested in learning more about Atmel’s tech on tour? You can check out our official ToT page here.

Eric Pan: From Seeed Studio to HAXLR8R

Born in Sichuan, China, Eric Pan (潘昊) graduated with an Electrical Engineering degree from Chongqing University. 

He founded the wildly popular Seeed Studio in July 2008 to help Makers transform their ideas into actual products, subsequently establishing the first organized Maker Community in Shenzhen. Known as Chua Huo, the MakerSpace facilitates interaction among DIY Makers, while encouraging dialogue and cooperation with both industry and academia.

Eric is understandably enthusiastic about the open source movement, as he also organized the Shenzhen Maker Faire and established the hardware incubation project “HAXLR8R” with Cyril Ebersweiler. In 2013, Eric was named one of the “Top 30 Entrepreneurs” in China by Forbes, which prominently featured the engineer on the magazine’s front cover.

Recently, the staff of Bits & Pieces had the opportunity to sit down with Pan for a wide-ranging interview covering a number of topics including the rapidly evolving open source movement, Atmel-basedArduino boards, Atmel-powered 3D printers such as RepRap, the Maker Movement and Shenzen, a major city in the south of Southern China’s Guangdong Province.


Bits & Pieces: 

How are Atmel-based Arduino boards and 3D printers such as RepRap helping to inspire the design and prototyping of new products in China?

RepRap Version 2 ‘Mendel’ (Image Credit: Wikipedia)

Eric Pan: 

Hardware development has traditionally been perceived as a complex process, with a product lineup often taking years to improve and perfect. However, tools such as Atmel-based Arduino boards and 3D printers have significantly lowered the entry barrier for hardware innovation, thus creating a much wider playing field for DIY Makers. 

Indeed, over the past a few years, we’ve seen designers and Makers create prototypes and iron out issues in days and weeks, rather than months or even years.

Clearly, hardware development is becoming a more agile process with the aid of prototyping tools like RepRap and Arduino boards – both of which are helping to facilitate innovation across the world and particularly in China.

Bits & Pieces: What role do MakerSpaces and Universities play in setting technology trends for Chinese tech companies?

The Atmel-powered uARM (UFactory, Shenzhen, China)

Eric Pan: Universities have established links and collaborated on a number of projects with various Chinese tech companies, with many engaging in pioneering research. In addition, MakerSpaces have evolved into innovation hubs responsible for encouraging a diversity of ideas and products. 

Essentially, MakerSpaces act as a virtual bridge for cross-boundary conversations between industry and academic research. This enables constructive dialogue about issues which are typically overlooked. Personally, I believe niche market Maker platforms and devices are analogous to indie movies that provide the commercial film industry with a hotbed of new ideas.

MakerSpaces will likely enable a new wave of tech startups in China as in the US. To be sure, Makers working with their peers are now able to more easily realize their goals, while bringing products to market with new platforms such as e-commerce sites and crowdfunding. 

Nevertheless, major companies in China are somewhat cautious about encouraging grass-root innovations, even though some of them are actively involved in a collaborative dialogue with Makers as part of a strategic open innovation strategy. So for now, MakerSpaces are gradually helping Chinese tech companies discover additional possibilities, although the Maker role is likely to increase, with participants in the DIY culture setting technology trends in conjunction with major industries.

Bits & Pieces: The Maker Movement seems to be particularly active in Shenzen and Shanghai. Why do think this is?

Eric Pan: The most important factor is the intellectually fertile ground of the two locations. Shanghai is particularly active, first and foremost because of its foreigner base and natural Maker culture.

Local tech and art people are also enthusiastic about the trend, which helps bolster the DIY attitude. 

Meanwhile, Shenzhen has an established manufacture and supply based chain which is attractive to Makers from all over the world. If you look at the bigger picture, it is quite clear that these local two MakerSpaces have inspired a larger group of Makers and Makers-to-be across China. 

Unfortunately, the cost of living in both Shanghai and Shenzhen are too high for many Makers to realistically design and develop their products. As such, I hope to see more Makers gathers in smaller cities where the cost of living is somewhat lower and more amenable to a DIY crowd.

Bits & Pieces: What is the future of open source hardware and the Maker Movement in China? Does it face any specific hurdles?

Shenzhen (Image Credit: Wikipedia)

Eric Pan: There are currently a number of opinions being heard about the future of the Maker Movement in China. Nevertheless, one thing is for certain. The inherent entrepreneurial spirit of the Chinese people will help the Maker culture grow – and vice versa. 

The biggest hurdle, from what I can tell, may very well come from established educational facilities, simply because Chinese students expect to be trained in traditional methods when specific professional skills are required. 

However, exposure to multiple academic disciplines will encourage people to people think out of the box and explore different ways of approaching problems and opportunities. In addition, being asked more open-ended practical questions instead of simply memorizing facts would go a long way in encouraging students to try out real-world solutions.

Bits & Pieces: What can companies like Atmel do to help encourage the growth of the Maker Movement in China?

Eric Pan: Atmel has already played a very important role in engineering universities through its programs. The inspiring part is that art and design students are using Atmel chipsets which power Arduino boards – effectively building a bridge for major cooperation between Makers and the corporate world.

Continued support from Atmel for future Maker events will definitely contribute to the evolution and growth of the DIY movement in China. On the business side, hardware generated by Maker projects will also help encourage major industry players to create more varied products using Atmel microcontrollers and microprocessors. Last, but certainly not least, the direct involvement of Atmel engineers in local Maker communities will undoubtedly help nurture and grow the DIY movement across China.

3D printing Robohands in conflict zones

Daniel Omar, who lives in the Nuba Mountains of Sudan, lost both his arms at just 14 years of age when a government plane dropped a bomb near his village during the country’s protracted civil war.

“Without hands, I can’t do anything,” Daniel told Time Magazine. “If I could have died, I would have.”

Daniel – who is now 16 – only recently picked up a fork to feed himself for the first time in two years using a prosthetic arm with parts make on an Atmel powered MakerBot Replicator 2. The arm was designed by Mick Ebeling, the CEO of Not Impossible Labs, a California nonprofit devoted to technology for the sake of humanity.

Elliot Kotek, the chief of content for Not Impossible Labs, told the official MakerBot blog that the design for Daniel’s prosthetic arm was adapted from the Robohand, an open-source project designed by Richard van As, a South African woodworker who lost several fingers in an accident, and Ivan Owen, a prop maker in Seattle, Washington.

“Richard had already created the Roboarm and he also had modified the original Robohand so that it was enclosed at the top of the hand. This change will better protect the hands from the elements,” Kotek explained. “Richard is really out to make a difference on a humanitarian level. That spirit rubs off on us.”

Indeed, Not Impossible Labs recently transported two MakerBot Replicator 2 3D printers to Mother of Mercy Hospital, near the border with independent South Sudan. Ebeling then spent five days in Sudan training seven local fabricators to make prosthetics. Using the two 3D printers, hospital staff can produce one prosthetic a week, with each new arm requiring approximately $100 worth of filament, medical orthoplastic, and metal.

“If Project Daniel can surmount these challenges and scale up, it could transform the lives of tens of thousands of amputees in Sudan, and others around the world,” writes MakerBot’s Blake Eskin. “If you are moved to help, Project Daniel would welcome donations. And if you’re not moved yet, watch the video [above] produced by Not Impossible Labs, which shows Daniel’s wounds and his new prosthetics.”