Every January, the tech world descends upon Las Vegas for the Consumer Electronics Show. In 2018, over 4000 global companies displayed their products and ideas, spread throughout 2.6 million square feet of exhibition space in the Las Vegas Convention Center and ten hotels. Nearly 185,000 industry professionals, exhibitors, and media from around the world attended this year. By the numbers, it is an impressive event.

Many successful home technologies have made their debut at CES over its 51-year run: VCRs, camcorders, CD players, DVDs, tablet computers—even the original Nintendo Entertainment System and Xbox. This year’s trends included the forthcoming “5G network,” digital health and fitness, and improved autonomous vehicles. One “battle” visible on the show floor was the widespread adoption of voice-command technology—from smart speakers in the home to command modules in vehicles—and which platform would reign. Ask Alexa. Hey Google. Hi Bixby.

CES has been known to “make or break” companies. Established companies use the event as a forum to launch new products, improve existing devices, or inadvertently—present the occasional flop. Likewise, the 600+ startup companies that populate the specialized “Eureka Park” section angle to find the right pair of eyes on their idea and to secure funding for marketplace production.

Even with two curators on the ground, it was impossible to see everything. What follows is a sampling of our Curator of Communication & Information Technology and our Curator of Transportation’s favorite “CES Moments.” 



Here come the robots! Some of them can’t be described as anything but “cute,” like this Kuri model (upper left) from Mayfield Robotics. Also popular was Blue Frog’s “Buddy,” (upper right) and Sony’s Aibo the robot dog (bottom). All three of these devices are designed as “companion robots” and have a variety of expressive features. Today’s robots are equipped with facial recognition, cameras for capturing life’s moments, and often double as home security. 



Analog is always new again! The proliferation of quality cellphone cameras and social media has all but locked our memories into digital landscapes. But people remain hungry for physical media and printed photographs. This year at CES, Kodak displayed the Printomatic (right) and Polaroid announced the OneStep 2—an instant camera blending old and new technology (left, middle). The colorful film options and iconic square format should look familiar to today’s Instagrammers.

Continuing in the analog spirit… When the Technics SL-1200 record turntable debuted in 1972, its direct-drive technology made it an immediate hit not just with consumers but also with radio and club DJs. These robust “Wheels of Steel” played an essential role in the early years of hip hop record scratching and live dance music mixing. While the SL-1200 went out of production in 2010, many 1970s-era Technics remain in use today. At 2017’s CES, the coveted device began production once again. This year, Technics announced a new high-end turntable—the SL-1000R—which carries over the best qualities of the SL-1200. While the drastic rise in recent vinyl sales is often touted as a “revival,” the commitment of companies to produce quality turntables is evidence that the medium never really went away. 

There was a lot of buzz at CES 2018 about the coming of the “voice assistant wars” between Amazon’s Alexa, Google Assistant, and a flood of startups finding their way into the mix. Voice-activated technology is nearly ubiquitous, as we have learned to ask Siri and Google for directions. And smart home devices—especially interactive speakers—have become more commonplace as we use them not only to listen to music and podcasts, but also to seek out information like weather, steps to a recipe, or to set up reminders. Our tech curator’s biggest CES disappointment was the heavy rains and floods that forced the Google Assistant booth to close, as well as that fun looking slide to the left. 

Growing plants – that’s technology too! A variety of companies presented vertical hydroponic growing systems, geared towards health-savvy consumers who wish to take control of the food they consume. The SmallGarden by ēdn (right) and products by Opcom Farm (left) have married stylish, scalable design with LED lighting and intelligent automation. 

And perhaps our tech curator’s favorite item at CES this year was this robotic duck, designed through a partnership between Aflac and Sproutel. The award-winning “My Special Aflac Duck” is designed to help children cope with cancer treatment. Its touch sensors respond with soothing sounds when it is cuddled with, and it teaches young children calming breathing exercises while they undergo IV treatments. Round RFID chips containing emoji faces are meant to mirror emotions—when tapped against the duck, the toy will then reflect its patient’s feelings by groaning or quacking happily. An accessory even allows kids to play out administering “medication.” These features combine to allow young patients to communicate their emotions effectively, take on the role of caregiver, and reduce anxiety. The duck will be tested at an Atlanta treatment center this year, with the future goal of donating the social robot to any child diagnosed with cancer, nationwide.

While it’s not quite the North American International Auto Show, CES is an increasingly important venue for automakers to debut new technologies, or to announce new partnerships with tech-savvy firms. If the automotive side of this year’s show was to be captured in a single word, it’s “autonomy.” Self-driving vehicles are on everyone’s mind – we’re no longer talking about this tech in terms of “if,” but “when.”

Toyota president Akio Toyoda spoke clearly to the growing overlap between the automotive and tech worlds when he noted that his company’s competitors now include not only carmakers like General Motors, Volkswagen and Honda, but also firms like Google, Apple and Facebook. Toyoda sees the car evolving into a personal assistant, using predictive artificial intelligence to anticipate the travel needs of its owner. And, like a growing number of other industry members and observers, he also predicts the inevitable – if slow – extinction of the internal combustion engine. Toyota and Lexus plan to offer electric or hybrid versions of every one of their models by 2025.

Toyota’s big CES announcement focused on its e-Palette concept (above). The fully-autonomous electric vehicle is designed for maximum flexibility. An e-Palette could serve as a bus providing ride sharing services. It could work as a mobile store bringing goods to your front door on demand. It could even function as a rolling flexible workspace, giving us back some of those 38 hours that the average American loses to traffic congestion each year. Companies like Amazon, Pizza Hut and Uber have already agreed to partner with Toyota in e-Palette’s development.

Self-driving cars offer more than mere productivity. Safety promises to be their greatest benefit. Some 35,000 people die in motor vehicle accidents in the U.S. each year, and 90 percent of those accidents are due to human error. Eliminate the human element, so the thinking goes, and you eliminate the vast majority of those deaths.

Sophisticated lifesaving tools are here today. CES exhibitor eyeSight Technologies uses in-car sensors to track driver eye movement, blink rate and head pose (above). Look away from the road – say, at your phone – for too long and the system can trigger an audible alarm. Blink too often or for too long – perhaps because you’re too drowsy to drive – and the system could conceivably cause the car to slow down and pull off to the side of the road.

There are still many problems to solve before we have fully-autonomous cars in every garage. Who’s liable in an accident? The carmaker, the programmer, the owner? What happens when you’re traveling in a remote area with poor broadband service – and no GPS? What happens in the “transition” period, when self-driving cars share the road with human-driven vehicles? Can they communicate with one another? And the biggest question of all: Will people be comfortable putting their lives in a computer’s hands? But, ready or not, this new world is coming. In fact, it had already arrived at CES – Lyft and Aptive partnered to provide rides around Las Vegas in autonomous BMWs.

When you think about the relationship between humans and self-driving cars, remember that it’s not just the humans inside the car. How pedestrians, cyclists and other street users interact with an autonomous vehicle is equally important. Ford’s CES booth featured a van at the center of an interesting research project (above). In the study, a driver camouflages himself in a seat-cover costume – yes, really – and then drives around gauging people’s reactions. How disconcerting is it to see an empty van rolling toward the crosswalk? And how confident can you be that it’ll stop for you?

 

Ford and Toyota both emphasized that they’re not in the car business anymore – they’re in the mobility business. The recreated streetscape in Ford’s booth included not only the van and an autonomous Fusion sedan, but also bicycles, skaters and pedestrians. Ride sharing and self-driving vehicles will reduce traffic, either by cutting the number of cars on the road, or by using roads more efficiently. It’s a dream come true for urbanists who’ve long searched for ways to reclaim pavement for uses other than moving and/or parking cars. (Ever hear the term woonerf? You will!) In fact, Ford’s street even included park benches and grass in a reclaimed lane (above).

The twin revolutions of the electric powertrain and autonomous capability may provide the best opportunity to get into the car business since just after World War II. Few newcomers attracted as much attention at CES as Byton. The Chinese manufacturer plans to enter the American market in 2020 with a battery-powered Level 3 autonomous car capable of up to 325 miles between charges (above). Instead of a dashboard, Byton’s car uses a 49-inch screen. And instead of knobs and buttons – or even a touchscreen – passengers control the car’s features with hand gestures. And you don’t even have to worry about locking your keys in the car – the Byton’s doors are unlocked with facial recognition software.

And finally, for something completely different, the prize for Most Unexpected Quadricycle Sighting goes to… Gibson Guitars (above). The company’s special edition “20^th Century Tribute” archtop, on display in its CES tent, featured images of influential people, technologies and events from the past century. Note that Orville and Wilbur Wright had a well-deserved spot, too!

 Kristen Gallerneaux is Curator of Communication & Information Technology at The Henry Ford. Matt Anderson is Curator of Transportation at The Henry Ford.

autonomous technology, cars, communication, music, photography, events, technology, by Matt Anderson, by Kristen Gallerneaux

THF155560 / Radio Receiver Used in the Piccards' Stratospheric Balloon Ascension, 1934.

Objects have a tendency to develop lives and stories of their own, and I love figuring out the various ways they “speak” to us, the networks and worlds they form, and the variety of angles they can be looked at from. Part of the challenge of studying the history of media, information and communication is in knowing how to draw scattered data back together again, and how to weave a story out of it, to make it accessible and interesting — all the while rooting it to the object in question.

The microlevel details and histories of objects can be coaxed into connecting to big ideas. For example, the same “never leak” gaskets used in the modest Star-Rite electric toaster were also used in the engine of the Spirit of St. Louis airplane. So here, gaskets migrate out of the kitchen to become silent players that made the first transatlantic flight possible. This, in turn, connects not only to the development of aero technology but also to the desire to conquer space and time.

It makes me think of a shortwave radio receiver in our collection that was custom-built by William Duckwitz for ground communication during a balloon flight. The knobs, wires and tubes are typical of a DIY ethos. The flight itself took off from Ford Airport in 1934 and rose nearly 11 miles into the stratosphere. Who was manning the gondola below the hydrogen-filled balloon? Jeannette Piccard, a streetwise woman with impressive credentials. She was the first woman to be licensed as a balloon pilot and became the first American woman to enter the stratosphere and, technically speaking, space. Piccard once said: “When you fly a balloon, you don’t file a flight plan; you go where the wind goes. You feel like part of the air. You almost feel like part of eternity, and you just float along.”

The objects in my curatorial care are essentially a huge collection of “black boxes”— a concept that means the more seamless and successful a technology is, the more mystifying and opaque its inner functions become to the everyday user. And so, another exciting task is to figure out a way to reveal the invisible networks among the collections, to allow patrons to see communications and IT devices and think beyond their sleek shells (or messy tubes and wires) and understand how they relate to ideas, stories, invention and to themselves — as users. Continue Reading

technology, The Henry Ford Magazine, by Kristen Gallerneaux

As part of The Henry Ford’s Community Outreach Program, VIP Mentoring mentor Patricia Shephard and her mentee Angel Lysher had the opportunity to hear Kimberly
Bryant share insights about the art of computer coding. The presentation by the founder of Black Girls CODE was part of the Innovator Speakers Series and took place in Henry Ford Museum of American Innovation.

When Patricia Shephard and 14-year-old Angel Lysher visited Henry Ford Museum of American Innovation in March 2017, the two were on a mission to learn about the art of coding at a presentation by Kimberly Bryant, founder of Black Girls CODE.

“I was interested in the Black Girls CODE presentation because it was about technology,” said Shephard, who has mentored Angel since 2016 through VIP Mentoring, a Detroit-based organization. "I feel it is important for Angel to experience as many presentations and outings that will give her hope and encourage her to break the ‘glass ceiling.’ It’s also important for her to learn about her culture and successful African- American people.”

After Bryant’s encouraging words, the two walked around the museum, discussing technology, programming and the importance of extracurricular activities.

“Not all girls want to play with Barbies,” said Angel, who added that she learned a great deal from Bryant’s presentation, including, “If you are a girl that likes technology, show it.”

A Privilege to Serve
Shephard and Angel attended the Bryant event as part of The Henry Ford’s Community Outreach Program, which works with direct social service providers to make The Henry Ford’s world-class collections and educational experiences more accessible. VIP Mentoring, which fosters relationships between children in at-risk situations and caring adult volunteers, has been a Community Outreach Program partner since 2016.

Said Pamela Smith, a VIP Mentoring match specialist, “When The Henry Ford opens its doors to our families, it is creating a cultural and educational opportunity that most would never get to experience.”

The Henry Ford partners with more than 100 organizations in metro Detroit through its Community Outreach Program. Funded through the general operating budget, the 11 year-old program works through partner organizations to offer no-cost access to the museum, Greenfield Village and Ford Rouge Factory Tour to those in need, whether it’s resource-challenged families, at-risk youth, kids fighting cancer or young victims of violence. The intent is to offer inspiration from stories of American ingenuity, resourcefulness and innovation.

“We feel responsible for providing expanded community access to the unique learning
opportunities The Henry Ford provides,” said Stacey Simmons, Community Outreach Program manager. “We’re privileged to offer engaging and inspiring experiences that prompt new perspectives and reveal new opportunities. And we’re honored to work with other organizations committed to helping shape a better future.”

Did You Know?
You can support programs like the Community Outreach Program on #GivingTuesday by making a donation to The Henry Ford's Annual Fund. 

philanthropy, #GivingTuesday, African American history, technology

Henry Ford used wireless radio to communicate within Ford Motor Company (FMC) starting after October 1, 1919. This revolutionary new means of communication captured Ford’s interest because it allowed him to transmit messages within his vast operation. By August 1920, he could convey directions from his yacht to administrators in FMC offices and production facilities in Dearborn and Northville, Michigan. By February 1922, Ford’s railroad offices and the plant in Flat Rock, Michigan were connected, and by 1925, the radio transmission equipment was on Ford’s Great Lake bulk haulers and ocean-going vessels. Historian David L. Lewis claimed that “Ford led all others in the use of intracompany radio communications” (The Public Image of Henry Ford, 311).

Ford Motor Company also used radio transmissions to reach external audiences through promotional campaigns. During 1922, FMC sales branches delivered a series of expositions that featured Ford automobiles and Fordson tractors. An article in Motor Age (August 10, 1922) described highlights of the four-month tour of western Oregon:

“The days are given over to field demonstrations of tractors, plows and implements, while at night a radio outfit that brings in the concerts from the distant cities and motion pictures from the Ford plant, keep an intensely interested crowd on the grounds until the Delco Light shuts down for the night.”

The Ford Radio and Film crew that broadcast to the Oregon crowds traveled in a well-marked vehicle, taking every opportunity available to inform passers-by of Ford’s investment in the new technology – radio – and the utility of new FMC products. Ray Johnson, who participated in the tour, recalled that he drove a vehicle during the day and then played dance music in the evenings as a member of the three-piece orchestra, “Sam Ness and his Royal Ragadours.”

Ford and Fordson Power Exposition Caravan and Radio Truck, Seaside, Oregon, 1922 . THF134998

In 1922, Intra-Ford transmissions began making public broadcasts over the Dearborn’s KDEN station (call letters WWI) at 250-watts of power, which carried a range of approximately 360 meters. The radio station building and transmission towers were located behind the Ford Engineering Laboratory, completed in 1924 at the intersection of Beech Street and Oakwood Boulevard in Dearborn.

Ford Motor Company Radio Station WWI, Dearborn, Michigan, March 1925. THF134748

Staff at the station, conveying intracompany information and compiled content for the public show which aired on Wednesday evenings.

Ford Motor Company Radio Station WWI, Dearborn, Michigan, August 1924. THF134754

The station did not grow because Ford did not want to join new radio networks. He discontinued broadcasting on WWI in early February 1926 (The Public Image of Henry Ford, 179).

Ford did not discontinue his intracompany radio communications. FMC used radio-telegraph means to communicate between the head office in Dearborn and remote locations, including, Fordlandia, a 2.5-million-acre plantation that Ford purchased in 1927 and that he planned to turn into a source of raw rubber to ease dependency on British colonies regulated by British trade policy.

Brazil and other countries in the Amazon of South American provided natural rubber to the world until the early twentieth century. The demand for tires for automobiles increased so quickly that South American harvests could not satisfy demand. Industrialists sought new sources. During the 1870s, a British man smuggled seeds out of Brazil, and by the late 1880s, British colonies, especially Ceylon (today Sri Lanka) and Malaysia, began producing natural rubber. Inexpensive labor, plus a climate suitable for production, and a growing number of trees created a viable replacement source for Brazilian rubber.

British trade policies, however, angered American industrialists who sought to establish production in other places including Africa and the Philippines. Henry Ford turned to Brazil, because of the incentives that the Brazilian government offered him. His goals to produce inexpensive rubber faced several hurdles, not the least of which was overcoming the traditional labor practices that had suited those who harvested rubber in local forests, and the length of time it took to cultivate new plants (not relying on local resources).

Ford built a production facility on the Tapajós River in Brazil. This included a radio station. The papers of E. L. Leibold, in The Henry Ford’s Benson Ford Research Center, include a map with a key that indicated the “proposed method of communication between Home Office and Ford Motor Company property on Rio Tapajos River Brazil.” The system included Western Union (WU) land wire from Detroit to New York, WU land wire and cable from New York to Para, Amazon River Cable Company river cable between Para and Santarem, and Ford Motor Company radio stations at each point between Santarem and the Ford Motor Company on Rio Tapajós. Manual relays had to occur at New York, Para, and Santarem.

Map Showing Routes of Communication between Dearborn, Michigan and Fordlandia, Brazil, circa 1928. THF134693

Ford officials studied the federal laws in Brazil that regulated radio and telegraph to ensure compliance. Construction of the power house and processing structures took time. The community and corporate facilities at Boa Vista (later Fordlandia) grew. By 1931, the power house had a generator that provided power throughout the Fordlandia complex.

Generator in Power House at Fordlandia, Brazil, 1931. THF134711

Power House and Water Tower at Fordlandia, Brazil, 1931. THF134714 

Lines from the power house stretching up the hill from the river to the hospital and other buildings, including the radio power station. The setting on a higher elevation helped ensure the best reception for radio transmissions.

Sawmill and Power House at Fordlandia, Brazil, 1931. THF134717 

Workers built the radio power house, which held a Delco Plant and storage batteries, and the radio transmitter station with its transmission tower. The intracompany radio station operated by 1929.

Radio Power House, Fordlandia, Brazil, 1929. THF134697 

Radio Transmitter House, Fordlandia, Brazil, 1929. THF134699

Storage Batteries in Radio Power House, Fordlandia, Brazil, 1929. THF134701

Delco Battery Charger for Radio Power House, Fordlandia, Brazil, 1929. THF134703 

Radio Power House Motor Generator Set, Fordlandia, Brazil, 1929. THF134705

The radio power house is visible at the extreme left of a photograph showing the stone road leading to the hospital (on an even higher elevation) at Fordlandia.

Stone Road Leading to Hospital, Fordlandia, Brazil, 1929. THF134709

Radio Transmitter Station, Fordlandia, Brazil, 1929. THF134707

Back at FMC headquarters in Dearborn, Ford announced in late 1933 that he would sponsor a program on both NBC and CBS networks. The Waring show aired two times a week between 1934 and 1937, when Ford pulled funding. Ford also sponsored World Series broadcasts. The most important radio investment FMC made, however, was the Ford Sunday Evening Hour, launched in the fall of 1934. Eighty-six CBS stations broadcast the show. Programs included classical music and corporate messages delivered by William J. Cameron, and occasionally guest hosts. Ford Motor Company printed and sold transcripts of the weekly talks for a small fee.

On August 24, 1941 Linton Wells (1893-1976), a journalist and foreign correspondent, hosted the broadcast and presented a piece on Fordlandia.

Program, "Ford Summer Hour," Sunday, August 24, 1941. THF134690

Linton Wells was not a stranger to Henry Ford’s Greenfield Village, he and his wife, Fay Gillis Wells, posed for a tintype in the village studio on 2 May 1940.

Tintype Portrait of Linton Wells and Fay Gillis Wells, Taken at the Greenfield Village Tintype Studio, circa 1940. THF134720

This radio broadcast informed American listeners of the Fordlandia project, in its 16th year in 1941. Wells summarized the products made from rubber (by way of an introduction to the importance of the subject). He described the approach Ford took to carve an American factory out of an Amazonian jungle, and the “never-say-quit” attitude that prompted Ford to re-evaluate Fordlandia, and to trade 1,375 square miles of Fordlandia for an equal amount of land on Rio Tapajós, closer to the Amazon port of Santarem. This new location became Belterra. Little did listeners know the challenges that arose as Brazilians tried to sustain their rubber production, and Ford sought to grow its own rubber supply.

By 1942, nearly 3.6 million trees were growing at Fordlandia, but the first harvest yielded only 750 tons of rubber. By 1945, FMC sold the holdings to the Brazilian government (The Public Image of Henry Ford, 165).

The Ford Evening Hour Radio broadcasts likewise ceased production in 1942 after eight years and 400 performances.

Learn more about Fordlandia in our Digital Collections.

Debra A. Reid is Curator of Agriculture and the Environment; Kristen Gallerneaux is Curator of Communication and Information Technology; and Jim Orr is Image Services Specialist at The Henry Ford.

Sources

• Relevant collections in the Benson Ford Research Center, The Henry Ford, Dearborn, Michigan.
• Grandin, Greg. Fordlandia: The Rise and  Fall of Ford’s Forgotten Jungle City. Picador. 2010.
• Lewis, David L. The Public Image of Henry Ford: An American Folk Hero and His Company. Detroit, Michigan: Wayne State University Press, 1976.
• Frank, Zephyr and Aldo Musacchio. “The International Natural Rubber Market, 1870-1930.″ EH.Net Encyclopedia, edited by Robert Whaples. March 16, 2008.

South America, 20th century, 1940s, 1930s, 1920s, technology, radio, Michigan, Henry Ford, Fordlandia and Belterra, Ford Motor Company, communication, by Kristen Gallerneaux, by Jim Orr, by Debra A. Reid

 iPod nano MP3 Player & Earbuds, circa 2008. THF150173

What does "portable music" mean to you? This group of artifacts challenges what that notion has meant, from the early 20th century to present day. Some objects may seem familiar--some may seem laughably large to be considered "portable" today.

An evolution of listening styles is also present: from the open channels of radio for news and top-40 music--to formats like the LP and MP3 that allowed people to take control of their listening experience, minus the DJ.

technology, music

During the weekend of July 29^th-30^th, 2017, Maker Faire Detroit will return for its eighth year at The Henry Ford. From robotics to crafts, costume design to homebrewed carnival rides—hack-a-thons to soldering demonstrations—this family-friendly event promises to engage visitors with an immersive experience of ingenuity on overdrive. Hundreds of Makers (nearly one third of them new) will join us from around the globe this weekend, filling over 30-acres of space inside and outside of Henry Ford Museum of American Innovation. 

Our Curator of Communications and Information Technology, Kristen Gallerneaux, has put together this list of a few of her most anticipated Makers for 2017.



1. Musical Lightning, Times Four!
The Tesla Orchestra from Cleveland, Ohio are creators of “the world’s largest twin musical tesla coils.” For Maker Faire Detroit, they will demonstrate a quartet of mini coils capable of emitting three-foot lightning bolts—lightning that will be transformed into music before your eyes and ears. Each coil can play several notes – four coils put together brings the promise of Tesla harmonies! They will perform six times each day in Anderson Theatre. 



2. Robots!
In 1992, FIRST Robotics Competition had its inaugural event in a high school gymnasium with a total of 28 teams. Today, there are thousands of FIRST teams around the world. Founded by engineer Dean Kamen, FIRST gives high school students and their adult mentors the chance to collaborate and solve a problem: design and build a working industrial-sized robot. At Maker Faire Detroit, you can see robotics demonstrations by at least 15 competing FIRST teams from Michigan. Put it on your calendars: in April 2018, Detroit will host the FIRST Robotics Global Championship. 

3. Flaming Carnival Games!
Capn Nemos Flaming Carnival join us from Chicago. This group of artists, Makers and performers has been making the scene with their large-scale interactive projects: Hudor, the fire-breathing dragon boat, and a Halloween Parade that took over the streets of Chicago. This weekend, Nemos will present a selection of their midway carnival experiences including Ping Pong of Doom, High Striker, Zap!, and a “flaming popcorn machine.”  

4. Drawing!
Camp Pencil Point will host workshops about the ins and outs of drawing comics during Maker Faire weekend. Along with human camp counselors, other inhabitants of the Pencil Point staff such as Drew the Draw-topus will make appearances. Seating is limited, but the workshops will repeat every hour. Bring your pencils! 



5. Bikes Shaped like Animals!
Fabricator Juan Martinez and author Dave Eggers will bring a small herd of their metal creatures to Maker Faire. The 826michigan project, “The Spirit of the Animals is in the Wheels” is made up of a group of rideable metal animals built onto bicycle frames. A bear, a bison, and a 19-foot scaly mammal known as a pangolin will roam the grounds all weekend. Underneath these graceful creations, these Makers also bring a message—to raise awareness of the transportation challenges that Detroit-area children face when commuting to and from school every day. 



6. Fluorescent Coral!
Coral Morphologic was founded in 2007 by marine biologist Colin Foord and musician Jared McKay. Each member brings innovative skills in science and art to create lush and mesmerizing media experiences about the world’s endangered coral reefs. Coral Morphologic act as the preservationists, educators, and philosophers for Miami’s unique aquaculture. A 4K projection of a documentary about the group’s work will show three times per day in the Giant Screen Experience. 



7. Inflatable Alien Fruit!
Wild Aesthetic is the creation of local interdisciplinary artist Sean Hages. His huge inflatable “alien fruit” sculpture will fill part of the museum’s plaza. What else is there to say? It’s a big, colorful, wonderful sculpture with otherworldly tentacles! 



8. Art is for Everyone!
Zot Artz was a favorite at last year’s Maker Faire, and we are happy to have them return in 2017. Since 1990, Dwayne Szot has been using his talents as an artist and engineer to create adaptive art tools for children who use wheelchairs. Zot Artz will be onsite with an interactive demonstration, showing the creative ways that assistive devices can be transformed to paint, draw, and stamp out colorful art.  



9. Fire Breathing Dragons!
It will probably be difficult to walk the grounds of Maker Faire and miss seeing a 30-foot-long, 19-foot-tal metal dragon built on top of a GM mini bus. Heavy Meta breathes fire out of her animatronic mouth and shoots fireballs from her tail. This mutant art car dragon will be commuting over the Canadian border from Toronto, and was created by an eclectic group of Makers including high school interns, professional metalworkers, and engineers. 



10. Speaker Program!
A packed schedule of interesting talks has been programmed for The Henry Ford Museum of American Innovation’s Drive In-Theatre. On Saturday, Caleb Kraft, Senior Editor at Make: magazine will talk about open source projects and the Maker community. On Sunday, young “hackschooler” Ben Hodsdon will share experiences about using Makerspaces and alternative learning outlets to hack a skilled education. Two panel discussions about food sustainability and Detroit’s agricultural renaissance will also take place on Sunday: Eastern Market: Innovation in Food Sourcing, and Farming in the City: Plants and Animals. Dr. Carleton Gholz of The Detroit Sound Conservancy will also join us to speak about the importance of Detroit’s sonic heritage and innovative models for its preservation.  





Bonus Points!
Inside the museum, the immersive design and typography exhibit, House Industries: A Type of Learning will be open for viewing. This exhibit is sure to be a hit with the Maker community, and admission is free with a Maker Faire ticket. Guests of House Industries will hold special programming inside this exhibit over the weekend.

On Saturday, Aaron Draplin of Draplin Design Co. and the popular Field Notes Brand “will take guests on a spirited walk through a wild array of projects and products—both big and small—from the front lines of graphic design.” Demonstrations at: 11-11:30am, 1:30-2pm, 4:30-5pm.

On Sunday, Jenny Hart of Sublime Stitching encourages guests to stop by and pick up an embroidery hoop. Jenny will lead guests through the process of stitching House Industries fonts during her 30-minute embroidery sessions. Demonstrations at: 11-11:30am, 1:30-2pm, 4:30-5pm. 

art, technology, music, making, events, Maker Faire Detroit

Linotype Composing Machine, circa 1915. THF126838

For the past 25 years House Industries has been known for their unique font collections. Their fonts have been used to create logos for some of the best-known brands, from entertainers to news outlets. At The Henry Ford, our collections house some important printing presses. The printing press democratized knowledge. As mechanical improvements were made, printing became faster and cheaper. By extension, the content of newspapers and books diversified, and the printed word was distributed on a mass scale.

This collection documents the mechanical lineage of printing presses, from a circa 1809 Ramage--one of the oldest surviving hand presses in the country--to the efficient Mergenthaler Linotype composing machine.

House Industries, technology, printing, communication

First portable “superhet” radio receiver, made by Edwin Armstrong in 1923. THF 156549

Edwin Armstrong’s First Portable Superheterodyning Receiver

A far cry from today’s pocket-sized MP3 players, the radio pictured above nonetheless advanced the idea of “portable radio.” This device was created in 1923 by Edwin Howard Armstrong—an inventor and pioneering electrical engineer. As the world’s first portable “superhet” radio receiver, this set is powered by six vacuum tubes, has a compartment for a battery, and a detachable horn for amplifying sound. It can be latched shut and conveniently carried by its handle, like a suitcase.

Armstrong’s legacy is rooted in three essential advances in radio history: regenerative circuits, superheterodyning, and frequency modulation (known to us today as FM radio). Individually, each of these concepts acted as some of the most important discoveries in radio history. Together, they helped to raise radio up to a new level. These concepts amplified radio waves, allowing voices to be carried rather than the dots and dashes of Morse code, and by extension, turned radio into an accessible and collective experience.

Superheterodyning
The superheterodyning principle discovered by Armstrong is embedded within the radio receiver above, and has carried over to virtually every modern radio created since. Heterodyning involves mixing two different radio frequencies to create a third frequency, which could be used to tap into very sensitive high-frequency radio waves. Modern radio as well as televisions and cell phones owe a lot to the “superhet” concept.


Edwin and Marion Armstrong, on the beach, 1923. THF 120661

Tunes for the Honeymoon
Not only was Armstrong an intrepid inventor, he was also a daredevil. His shy persona was a contrast to his bold innovations and daring publicity stunts. Before he married his wife Marion, he climbed to the top of the RCA tower in New York City to impress her. Apparently, it worked—because we soon see Marion and Armstrong on their honeymoon, sitting on the shore of Palm Beach in Florida. Armstrong built the portable radio in this image as wedding gift to Marion, and it is the same radio in the collections at The Henry Ford. 


Marion Armstrong at The Henry Ford, 1967. THF 131774

Armstrong’s Legacy
Armstrong was well known in his own time, and was highly respected. His story is also tragic, because he spent decades of his career in legal battles over patents that other inventors raised against him. Even though he would receive credit for his contributions to radio, much of that vindication came after his 1954 death. In the image above, we see Marion Armstrong donating her husband’s radio to The Henry Ford in 1967.

Although today’s radio formats are shifting towards satellite and subscription services, if you’ve ever listened to a car radio where you a spin a dial to tune in to a station—you’re listening to Armstrong’s FM radio.

The sonic imprints of his legacy continue to bleed into our everyday lives: from voices on the airwaves, to entertainment on the road, to enlivening a relaxing walk with headphones—or a summery day with music at the beach.

Kristen Gallerneaux is Curator of Communications and Information Technology at The Henry Ford.

1920s, 20th century, technology, radio, portability, communication, by Kristen Gallerneaux

The Henry Ford is the now the permanent home for an object that sets a new standard in both communication technology and fashion - the IBM Cognitive Dress.

The dress originally debuted at the Metropolitan Museum of Art Gala in May 2016 as a stunning custom gown designed by high-end women’s fashion designers Marchesa with the assistance of IBM’s Watson cognitive system. The dress has many layers of collaboration and interactivity: the initial research between IBM and Marchesa, the ability for an audience to influence its color through social media, and the ability for the dress to then communicate and display the data result back to the audience.

So, how does it work?

Watson is a cognitive technology--a form of computing that learns in a similar way to how humans learn. To make the dress interact with Watson, social media-responsive LEDs were sewn into its bodice and skirt. Utilizing Twitter and other social media feeds, Watson analyzes tweets and assigns an emotion based on the hashtags submitted, resulting in shifting color patterns across the garment’s materials.

The IBM Cognitive Dress is truly a smart design and a smart dress. The democratic appeal of social media has allowed the dress to become a significant part of today’s fashion industry. Fashion can now debut globally at an instantaneous rate--some companies go so far as to launch new collections using platforms like Twitter, Instagram, and Snapchat.

Continue Reading

by Kristen Gallerneaux, lighting, fashion, computers, communication, technology, design

Beast and Belle hand puppets. THF342892, THF342891 

When Walt Disney Pictures released its animated film Beauty and the Beast in 1991, the company received its best movie reviews in almost 50 years. Film critic Roger Ebert gave the movie four stars out of four, saying that, “Beauty and the Beast reaches back to an older and healthier Hollywood tradition in which the best writers, musicians, and filmmakers are gathered for a project on the assumption that a family audience deserves great entertainment, too.” Movie-goers of all ages agreed—this film was a winner.

Lesser known is the fact that this movie broke new ground in ways that we often take for granted with animated films today. On the eve of Disney’s soon-to-be-released live-action version of this classic film, we take the opportunity to reflect upon the many breakthrough—even revolutionary—aspects of the original film.

1. It was the first animated film in history to use a screenplay in addition to the usual storyboards. This made the resulting story more akin to a live-action movie than to the extended cartoon quality of other animated films produced up to that time.

2. The screenplay was written by a woman! In a field dominated by men, Linda Woolverton—whose primary experience had been writing scripts for children’s television shows—was the first woman to write an animated feature for Disney.  Woolverton, who claimed that she possessed some of Belle’s characteristics and that Gaston had “tinges of guys I used to date,” brought a believable quality to the characters as she worked with the film’s changing stable of story writers.

Belle Burger King figure. THF 101187

3. Belle was a new kind of princess, ushering in a whole new generation of more free-thinking, dynamic princesses like Mulan, Rapunzel in Tangled, and Merida in Brave. In writing the screenplay, Woolverton said, “I wanted a woman of the 90’s, someone who wanted to do something other than wait for her prince to come.” The casting of Paige O’Hara (a Broadway actress and singer) as the voice of Belle was a purposeful attempt to add a unique, more grown-up quality to Belle’s personality.

4. The other main characters also broke traditional molds. Full of depth and complexity, Beast and Gaston turned the role of the classic, stereotypical Disney prince inside out. Beast, who was “mean and coarse and unrefined” during most of the film, turned out to be the prince, while Gaston—whose dashing looks make him a more likely hero—turned out to be the villain.

5. The music was stunning. When Walt Disney Studio Chairman Jeffrey Katzenberg insisted that the film have a Broadway musical quality, he brought in songwriters Alan Mencken (music) and Howard Ashman (lyrics) fresh from their success with The Little Mermaid. Mencken and Ashman outdid themselves, creating the emotionally complex songs that moved the narrative forward and furthered our understanding of the characters and themes. Mencken and Ashman received Academy Awards that year for best original song (Beauty and the Beast) and best original score. 


Songwriters Alan Mencken and Howard Ashman turned their talents to Beauty and the Beast after completing The Little Mermaid. THF 308964

6. It helped kick movie studios’ use of computer animation into high gear. Beauty and the Beast was produced using a blend of traditional hand-drawn animation and CAPS, a computer-animated production system. While not the first movie to use computer animation, the success of such effects in this film—especially in the stunning ballroom scene—convinced Disney and other film studios to invest further in this technology.

7. It brought The Walt Disney Company back to being a force to be reckoned with. After a string of minor box-office releases, Disney’s animation department started turning things around with Who Framed Roger Rabbit (1986) and The Little Mermaid (1989). Beauty and the Beast was an even bigger hit, ushering in a wave of successive hits from Aladdin to Tarzan.  


Aladdin and Magic Carpet Burger King figure. THF 311312

This era, sometimes referred to as the “Disney Renaissance,” also saw a constant barrage of marketing tie-ins with each new film—related merchandise, Broadway musical adaptations, and Disney theme park attractions—laying the foundation for present-day cross-marketing techniques.




Chip and Cogsworth from Pizza Hut. THF342889, THF342890 
Continue Reading

20th century, 1990s, women's history, technology, popular culture, music, movies, Disney, childhood, by Donna R. Braden