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African Ingenuity Attracting Interest

Post author By David South Consulting
Post date 17/11/2022
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By David South, Development Challenges, South-South Solutions

The tide of science and innovation from the South is grabbing the world’s attention. While the big giants of India, China and Brazil are well-established hubs of invention, it is the once-overlooked continent of Africa that is generating current excitement. The atmosphere can be equated to the flush of innovation in the late 19th and early 20th centuries, as inventors tackled the budding new technologies of the combustion engine, flight, electricity and radio waves. These days, it’s the challenges of development, rapid urbanization and finding ways to ‘hack’ (http://en.wikipedia.org/wiki/Hack_%28technology%29), like adapting existing technology such as mobile phones or bicycles to new purposes.

That previous period of invention had a spirit of pioneering and making-do, of dreams and adaptability triumphing over poverty, and it laid the path for many new companies to sprout up and create wealth and jobs for millions. At this August’s Maker Faire Africa gathering (http://makerfaireafrica.com/) in Accra, Ghana, African pioneers in grassroots innovation offered inspiring inventions.

The rapid changes happening in African countries – especially the tilt to having a larger urban population than a rural one – means there is an urgent need to boost incomes.

Handled right, these grassroots inventors could grow to become part of the already expanding South-South trade, which grew by an average of 13 percent per year between 1995 and 2007, to make up 20 percent of world trade.

Inspired by the US magazine Make (http://makezine.com/) – a do-it-yourself technology magazine written by makers of computers, electronics and robotics – the first Maker Faire gathering was held in 2006 in the San Francisco area of the United States.

The African Maker Faire modelled itself on this approach and has tapped into Africa’s well-entrenched do-it-yourself development culture. It went looking for more inventors like those celebrated on the website AfriGadget (http://www.afrigadget.com/), with its projects that solve “everyday problems with African ingenuity.” The Faire works with the participants to share their ideas and to find ways to make money from their ideas.

The Faire in Accra ran in parallel with the International Development Design Summit (http://2009.iddsummit.org/),which came to Ghana from its home at the Massachusetts Institute of Technology (http://web.mit.edu/) in the United States. Its aim was to bring technology closer to “potential end users of the projects.”

“It is part of the revolution in design that aims to create equity in the distribution of research and development resources by focusing on the needs of the world’s poor,” organizers said.

This spirit of African invention is about breaking the perception that invention is a purely Northern phenomenon that requires complex and expensive materials. African ingenuity is about taking whatever is available and tackling common problems. It is an empowering approach that celebrates local initiative and seeks to find ways to turn these inventions into sustainable incomes.

“What’s different about African mechanics and gadgets is that it’s generally made with much fewer, and more basic, materials,” said Afrigadget founder Erik Hersman. “Where you might find a story on how to make hi-tech robots at home in Make, its counterpart in Africa might be how to create a bicycle out of wood. No less ingenuity needed, but far more useful for an African’s everyday life.”

The African Maker Faire featured a wide range of solutions, from a low-power radio station to a bicycle-powered saw and a simple corn planter.

Shamsudeen Napara, from northern Ghana, brought a US $10 corn planter that looks like a pill dispenser to help speed up crop planting. He also has invented a cheap shea nut (http://en.wikipedia.org/wiki/Shea_butter) roaster. These inventions are cooked up in his metal fabrication shop which builds tools for agricultural use. Shea nut processing is a lucrative task for women in Northern Ghana. Napara’s roaster costs US $40 and reduces the energy and time to process the nuts. He has also made a soap cutter using piano wires and guitar screws.

Bernard Kiwia, a bicycle mechanic from Arusha, Tanzania, is a pioneer working with windmills, water pumps, mobile phone chargers and pedal-powered hacksaws – all made from old bike parts.

Hayford Bempong, David Celestin and Michael Amankwanor from Accra Polytechnic (http://www.accrapolytechnic.edu.gh/), built a low-power radio station. Made from scrap electronic parts and an antenna from copper pipe, the radio was put straight to use to broadcast announcements at the event over a range of a few thousand metres.

Suprio Das, Killian Deku, Laura Stupin and Bernard Kiwia brought a method to produce chlorine from salt water and other common materials. It can then be used to purify water. Their method can clean vast quantities of water using no moving parts (avoiding breakdowns). It does this by dripping chlorine into the water until a level has been reached, and then the purified water is released. By using a 5 litre bag of chlorine, and a US $3 valve, 100,000 litres of water can be purified.

Electricity was also being made using low-cost batteries from aluminum cans and plastic water bottles. Applying salt water as an electrolyte (http://en.wikipedia.org/wiki/Electrolyte),electricity is created by the oxidation of the aluminum can – a cheaper approach and less toxic than commercial batteries.

A group called Afrobotics (http://www.afrobotics.com) gave a presentation to encourage more African students to go into engineering, science and technology. Afrobotics is set up as a competition to “fuel engineering, science, innovation, and entrepreneurship on the African continent, utilizing robotics.” They have some excellent videos of African robots in action: http://www.afrobotics.com/videos.

Published: October 2009

Resources

1) Fab Labs: Like the futuristic “replicator” in the TV show Star Trek, Fab Labs allow people to design and produce what they need there and then. The labs are mushrooming throughout the South as people get the innovation bug. The Fab Lab program is part of the MIT’s Center for Bits and Atoms (CBA) which broadly explores how the content of information relates to its physical representation. Website: http://fab.cba.mit.edu/

2) id21 Insights: A series of articles by the UK ’s Institute of Development Studies on how to make technology and science relevant to the needs of the poor. Website: http://www.id21.org/insights/insights68/art00.html

3) eMachineShop: This remarkable service allows budding inventors to download free design software, design their invention, and then have it made in any quantity they wish and shipped to them: Amazing! Website: http://www.emachineshop.com/

4) The red dot logo stands for belonging to the best in design and business. The red dot is an internationally recognised quality label for excellent design that is aimed at all those who would like to improve their business activities with the help of design. Website: www.red-dot.de

5) Institute for the Future: It identifies emerging trends that will transform global society and the global marketplace. It provides insight into business strategy, design process, innovation, and social dilemmas. Its website helps budding inventors to identify new areas of invention.Website: http://www.iftf.org/

Development Challenges, South-South Solutions was launched as an e-newsletter in 2006 by UNDP’s South-South Cooperation Unit (now the United Nations Office for South-South Cooperation) based in New York, USA. It led on profiling the rise of the global South as an economic powerhouse and was one of the first regular publications to champion the global South’s innovators, entrepreneurs, and pioneers. It tracked the key trends that are now so profoundly reshaping how development is seen and done. This includes the rapid take-up of mobile phones and information technology in the global South (as profiled in the first issue of magazine Southern Innovator), the move to becoming a majority urban world, a growing global innovator culture, and the plethora of solutions being developed in the global South to tackle its problems and improve living conditions and boost human development. The success of the e-newsletter led to the launch of the magazine Southern Innovator.

This work is licensed under a
Creative Commons Attribution-Noncommercial-No Derivative Works 3.0 License.

ORCID iD: https://orcid.org/0000-0001-5311-1052.

© David South Consulting 2023

Archive Development Challenges, South-South Solutions Newsletters Southern Innovator magazine

Bringing the Invention and Innovation Mindset to Young Kenyans

Post author By David South Consulting
Post date 10/10/2022
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By David South, Development Challenges, South-South Solutions

SOUTH-SOUTH CASE STUDY

A highly innovative new way to teach the basics of electronics, computing and technological innovation is being pioneered in the slums of Nairobi, Kenya. Driven by the desire to counter perceptions of apathy among young people, NGO Kuweni Serious is running a training course for girls aged over 8 years in some of the poorest parts of the city to turn on a new generation to the power of technology to make change.

“Technology is pivotal in our work, as Kuweni Serious is a primarily online platform that seeks to create offline action,” according to Kuweni Serious’ Rachel Gichengo. “It’s positive in that you can reach a lot of people with solid messages that are in bite-size pieces that are easy to disseminate and consume. Everyone can pass on the information with a simple click – it’s an easier way to begin socio-political discussion among people who would otherwise not be drawn into these kinds of discussions because they’re not presented in a way that appeals to them. The typical profile of a KS volunteer is someone in their 20s, middle-class, has some experience volunteering, has never been to a slum despite living in Nairobi, but wants more for their country.”

The course uses a clever, hands-on approach to teaching. Instructors use a new generation of learning toys that help young people understand how technology works and gives them the first taste of what it is like to build something from scratch. These toys comprise various components that perform tasks – a light, a motor, a computer, a music player. Active invention is required to work out how to assemble these parts to make something bigger and better. This stands in stark contrast to toys – or computer games – where all the hard work is done for the child and they just have to play.

“We chose tech training because it’s a traditionally under-represented area when it comes to reaching this particular group (underprivileged girls), yet such an important set of skills to be taught in this day and age,” confirms Gichengo. “We want to expand these girls’ thinking – to get them interested in the possibilities of careers in science and tech, rather than perpetuate the idea that all they’ll ever do, based on their circumstances, is tailoring or dance. We hoped to open our girls’ worlds a bit, as well as link them to our Kuweni Serious community of volunteers.”

Called PicoCrickets (www.picocricket.com), and manufactured by the Canadian Playful Invention Company (PICO), the toys were developed from research and ideas at the Lifelong Kindergarten group (http://llk.media.mit.edu/) at the MIT (Massachusetts Institute of Technology) Media Lab (www.media.mit.edu).

“Pico Crickets are cool,” continues Gichengo. “They’re a fun way to learn to build things, to learn the connection between hardware and software, to begin to understand what computers can do. They make learning easy, and they make science seem accessible to a group that tends to see it as too hard for them. The kits were paid for by a grant from the Girl Effect (www.girleffect.org).”

The MIT lab conducted intensive research into creative learning environments for children. One of the first fruits of this research was Lego Mindstorms (http://mindstorms.lego.com), kits that allow children to make and program their own robots.

Inspired by this work, the PicoCricket places more emphasises on artistic expression. The company created the PicoCricket Kit (www.picocricket.com/whatisit.html) as a way to integrate art and technology to “spark creative thinking in girls and boys 8 years and older,” according to its website.

A typical kit includes a central PicoCricket that a child then plugs in to various motors, sensors, lights and other devices to make something that can spin, light up or play music. It is intended to give free rein to both technological innovation and artistic expression.

Kenya experienced violent rioting during the 2007 and 2008 elections. The shock of the events produced a number of initiatives to counter the violence and the social and economic disruption it has caused. One of the most well-known innovations, Ushahidi (www.ushahidi.com), a crisis-mapping platform, has been deployed around the world and led to many other new innovations.

Kuweni Serious (www.kuweniserious.org) is also a result of this crisis. The NGO sets out to counter the stereotype of Kenya’s youth as a “hedonistic generation of brand-obsessed youth, moving from party to party in the night and congregating on Facebook during the day.”

Kuweni Serious believes young people in Kenya were shocked into action when violence broke out during the elections. Prices jumped for everything – from fuel to food – and water and power started to be rationed. It was a wake-up call to youth: it was getting harder and harder to ignore what was happening in the country.

Kuweni Serious was founded by Kenyan youth and asked the question “how do Kenya’s youth feel about all the chaos around us?” It seeks to rally young people to their motto: “Fighting the evil forces of apathy.”

Their 125/100 program set out to train 125 girls on a 100-day course. It ended with a graduation ceremony on July 2, 2011.

The program, run by volunteers from the University of Nairobi, has taught basic computer skills, got the children working on Google Maps and making – and inventing – using the PicoCrickets.

The girls on the course came from Baba Dogo and Kibera, Nairobi’s largest slum.

The technology training program lasted between three and six hours a week for 12 weeks. The inventions made by the children included merry go rounds, a lamp stand and fan and miniature automobiles. Participants even got to grips with Google Maps and learned how to use mobile phones in citizen journalism. At the end of the course, all the children received a certificate reinforcing their sense of accomplishment and achievement.

“We hope to continue doing similar projects, scaling up 125/100, and working on developing a corps of everyday change makers among young, educated, middle class Kenyans,” according to Gichengo. “We’re also preparing for the 2012 elections, so we need to have more conversations about what a new election means, given the outcome of our previous one.”

Another initiative seeking to improve life chances for Kenyan girls is ZanaAfrica (www.zanaa.org). It focuses on educational opportunities for girls, consulting them to find out what would increase their chances of graduation from school. Because of this back-and-forth dialogue with the girls, they have come up with various strategic programs, one example being providing girls with sanitary pads for menstruation (http://en.wikipedia.org/wiki/Menstruation) every month so that they do not skip classes and lose vital class time. ZanaAfrica was born around tackling the issue of lost school days for girls because of poor provision of sanitary pads in Kenya: an estimated 868,000 adolescent girls were missing 3.5 million school days a month, according to ZanaAfrica. Sanitary pads in Kenya cost twice most people’s daily wage. Just to provide pads to all the school girls in Kenya, they estimated, would cost US $13 million a year, increasing by 5 percent every year.

Another disadvantage for these girls is finding the right support environment and strong, positive role models. ZanaAfrica’s solution is Empowerment Clubs (www.zanaa.org/empowernet-clubs), places where small groups of 15 to 20 students meet with field officers and tackle difficult topics not discussed at home or in school: drugs, relationships, self-confidence, health and disease. There are already 1,000 students in the Kibera area in these Empowerment Clubs. This approach has also been combined with something called EmpowerNet Clubs: these clubs take place in the schools and combine blogging and tweeting (www.twitter.com) with the discussions on life issues. Already in five schools, the clubs include a field officer and 20 girls meeting once a week.

ZanaAfrica was started in 2007 by social entrepreneur and Harvard University graduate Megan White, who has been living and working in Kenya since 2001. ZanaAfrica identifies poverty-eradicating, African-led innovations and then tries to build them up and find ways to replicate them and make them sustainable. They look for innovations in the areas of health, education and the environment.

“Kenyans are definitely early adopters, and are rushing to take advantage of new technologies,” confirms Gichengo. “The Kenyan success stories have been a huge inspiration, largely because they developed localized solutions that could then be exported to the world, rather than the other way around, which tends to be the case. There’s always value in looking further afield to see what else is being done around the world, but the iHub and Ushahidi (and the Kenya ICT Board, Safaricom, etc.) have gone a long, long way in inspiring local innovation.”

Published: July 2011

Resources

1) Make Magazine: “MAKE Magazine brings the do-it-yourself mindset to all the technology in your life. MAKE is loaded with exciting projects that help you make the most of your technology at home and away from home. We celebrate your right to tweak, hack, and bend any technology to your own will.” Website: http://makezine.com/

2) Lego Mindstorms robot-making kits. Website:http://mindstorms.lego.com/en-us/Default.aspx

3) Southern Innovator Issue 1: New global magazine celebrating innovation across the global South. Website:http://www.scribd.com/doc/57980406/Southern-Innovator-Issue-1

4) iHub Nairobi: iHub Nairobi’s Innovation Hub for the technology community is an open space for the technologists, investors, tech companies and hackers in the area. This space is a tech community facility with a focus on young entrepreneurs, web and mobile phone programmers, designers and researchers. It is part open community workspace (co-working), part vector for investors and VCs and part incubator. Website:http://ihub.co.ke/pages/home.php

5) Maker Faire Africa 2011: MFA 2011 continues to cultivate new and existing maker communities across Africa. As was the case in Accra (‘09) and Nairobi (’10), MFA 2011 will present and spotlight the vibrant and endlessly creative individuals that have come to represent the spirit of ‘making’ throughout the continent. These innovators, artists and tinkerers will be exhibiting a fusion of the informal and formal; ideas, inventions, hacks and designs both low-tech & high-tech. From cuisine to machines, come see their re-imagining of products, exploration of novel materials, and original solutions for some of the continent’s most important challenges and opportunities. Maker Faire Africa 2011 will be a celebratory showcase of unhindered experimentation and curiosity. Website:http://makerfaireafrica.com/2011/06/09/maker-faire-africa-2011-cairo/

6) Social enterprise (http://en.wikipedia.org/wiki/Social_enterprise): Learn more about the vibrant world of social enterprise and connect with others. Website: http://www.socialenterpriselive.com/

This work is licensed under a
Creative Commons Attribution-Noncommercial-No Derivative Works 3.0 License.

ORCID iD: https://orcid.org/0000-0001-5311-1052.

© David South Consulting 2023

Archive Blogroll Development Challenges, South-South Solutions Newsletters Southern Innovator magazine

New 3D Technology Makes Innovation Breakthrough and Puts Mind over Matter

Post author By David South Consulting
Post date 02/03/2021
No Comments on New 3D Technology Makes Innovation Breakthrough and Puts Mind over Matter

By David South, Development Challenges, South-South Solutions

SOUTH-SOUTH CASE STUDY

Revolutions in technology are placing more and more power into the hands of the individual, and 3D printing and fabrication machines are opening a whole new chapter.

These devices come in many forms, but they all do one thing: they can manufacture pretty well any three-dimensional object on the spot, from digital plans. These machines come in many sizes, from factory scale to smaller, home versions which are no bigger than personal computer printers, such as the well-known MakerBot Replicator 2 (makerbot.com).

3D printers introduce sophisticated precision manufacturing to the individual much in the same way the personal computer and the Internet have empowered people to make their own software, build websites and start online businesses.

A pioneering educational innovation in Chile is taking the technology even further, in a way that is truly mind-blowing. Thinker Thing (thinkerthing.com) promises to transform the way people interact with this new technology. “We have built a machine that will allow you to make real objects with your mind,” its website states.

And, it wants to do more: “We want to use our invention to light a fire of inspiration throughout the remote and often disadvantaged schools of South America and we can do this with your help.”

Thinker Thing allows the user to wear a headset and communicate through brain waves to the 3D printer. The printer then manufactures a three-dimensional model of the thoughts. These can be squiggly shapes or even, it is hoped, more sophisticated forms.

Thinker Thing’s Chilean Chief Technology Officer is George Laskowsky. Laskowsky has a games console engineering background and was a research assistant in charge of high-energy particle experiments.

The Chilean government is funding this experiment to help children to improve their creative skills. The idea is to use the technology to eliminate the technical side of creating objects and focus the effort on the creative thought process. Thinker Thing was selected from more than 1,400 applicants to participate in the prestigious global accelerator program, “Start Up Chile” (http://startupchile.org). Start-Up Chile is a program created by the Chilean government that seeks to attract early-stage high potential entrepreneurs to develop startups using Chile as a platform to go global, in line with the national goal of converting Chile into the innovation and entrepreneurship hub of Latin America.

Based in Santiago, Chile, Laskowsky is seeking support for further development on IndieGoGo (http://www.indiegogo.com/projects/children-creating-real-objects-with-their-mind), an international crowdfunding platform for projects.

The plan is to tour Thinker Thing all around Chile and use the science, art and engineering principles behind the invention to help very young children in remote rural regions to learn through understanding the project. Its creators also hope to take the exhibition – called the Monster Dreamer School Outreach Program and the Fantastical Mind Creatures of Chile Exhibition – on the road and show it in major global cities.

The children are being asked to imagine fantastical creatures that will then be made into 3D forms with the machine. The idea is to then sell these 3D creatures to supporters of the project to help fund the initiative. As well, these creatures will go on display in an exhibition to help educate visitors about Chile’s children and their communities.

To increase interest, exclusive photographic prints and limited edition figurines are available of the creatures the children create.

The prototype uses what is called an EmotivEPOC, basically a wireless neuroheadset collecting signals from the user’s brain. In operation, the software allows users to make 3D models with the power of thought which are then made into a plastic model using a MakerBot Industries Replicator.

This is experimental stuff and neurotechnology is in its early stages. It can detect simple emotions such as excitement or boredom and cognitive thoughts such as push and pull. Despite being in its early stages, the technology can evolve a 3D object over a number of steps by detecting the user’s emotional response to design changes.

Thinker Thing has been working alongside neuroscientists to understand the workings of the brain. Amazingly, in one experiment they were able to get a person to control the leg of a cockroach using their own thoughts. Called the Salt Shaker (http://www.thinkerthing.com/about-2/salt-shaker/), it is an experimental kit for young students and hobbyists that allows them to take control of a biological limb quickly and simply.

The 3D printing revolution is energizing for large and small-scale manufacturers alike. It means a business can now engage in precision manufacturing of products and spare parts quickly. It means it is possible to download from the Internet plans for new innovations and manufacture them within minutes. It also means communities off the mainstream supply line can make what they need and repair machinery without needing to wait weeks or months for items to be shipped from afar or spend vast sums on shipping costs.

The Fab Labs project based at the Massachusetts Institute of Technology (MIT) has been at the forefront of pioneering and prototyping this technology, including running testing labs across the global South to prove the relevance of the technology to the world’s poorest communities.

As of 2012, these include Fab Lab Afghanistan (http://www.fablab.af/), in Chile the FabLab Santiago (www.designlab.uai/fablab), Fab Lab Egypt (www.fablab-egypt.com), in Colombia the FabLab Medellin (http://www.fablabcolombia.com), in Ghana the Takoradi Technical Institute (http://ttifab.wikispaces.com/How+to+Use+the+TTI+Fab+Lab+Wiki), in India at various locations, Indonesia’s HONFablab (http://honfablab.org), ARO FabLab Kenya West (http://www.fablab.co.ke), and in Peru, South Africa, Suriname and many more are in the works (http://fab.cba.mit.edu/about/labs/).

If Thinker Thing has its way, maybe people in the future will say “I think, therefore I print!”

Published: August 2013

Resources

1) Stratasys: The company manufactures 3D printers and materials that create prototypes and manufactured goods directly from 3D CAD files or other 3D content. Stratasys systems are used by manufacturers to create models and prototypes to aid in the new product design process. And they are becoming widely used for production of finished goods in low-volume manufacturing. Systems range from affordable desktop 3D printers to large production systems for direct digital manufacturing. Website: http://www.stratasys.com/

2) 3D Systems: 3D Systems is a leading provider of 3D content-to-print solutions including 3D printers, print materials and on-demand custom parts services for professionals and consumers alike. Website: http://www.3dsystems.com/

ExOne: With decades of manufacturing experience and significant investment in research and product development, ExOne has pioneered the evolution of nontraditional manufacturing. This investment has yielded a new generation of rapid production technology in the field of additive manufacturing as well as advanced micromachining processes. Website: http://www.exone.com/

FabCentral: This site supports a digital fabrication facility and global network of field fab labs managed by MIT’s Center for Bits and Atoms. Website: http://fab.cba.mit.edu

Maker Shed: 3D Printing and Fabrication: An outstanding resource for getting all you need to understand 3D printing and manufacturing, with 3D printers, supplies, Whether you want to print out physical objects or machine something from plastic, wood, or other materials, we have the tools and accessories you need. Website: http://www.makershed.com/3D_Printing_Fabrication_s/220.htm

EMachineShop: The first and leading machine shop designed from the start for the Internet, eMachineShop’s mission is to provide easy, convenient and low-cost fabrication of custom parts via the web. Website: emachineshop.com/

Follow @SouthSouth1

Google Books: https://books.google.co.uk/books?id=YfRcAwAAQBAJ&dq=development+challenges+august+2013&source=gbs_navlinks_s

Slideshare: http://www.slideshare.net/DavidSouth1/development-challenges-august-2013-issue

Southern Innovator Issue 1: https://books.google.co.uk/books?id=Q1O54YSE2BgC&dq=southern+innovator&source=gbs_navlinks_s

Southern Innovator Issue 2: https://books.google.co.uk/books?id=Ty0N969dcssC&dq=southern+innovator&source=gbs_navlinks_s

Southern Innovator Issue 3: https://books.google.co.uk/books?id=AQNt4YmhZagC&dq=southern+innovator&source=gbs_navlinks_s

Southern Innovator Issue 4: https://books.google.co.uk/books?id=9T_n2tA7l4EC&dq=southern+innovator&source=gbs_navlinks_s

Southern Innovator Issue 5: https://books.google.co.uk/books?id=6ILdAgAAQBAJ&dq=southern+innovator&source=gbs_navlinks_s

This work is licensed under a
Creative Commons Attribution-Noncommercial-No Derivative Works 3.0 License.

ORCID iD: https://orcid.org/0000-0001-5311-1052.

© David South Consulting 2023

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China Looking to Lead on Robot Innovation

Post author By David South Consulting
Post date 25/04/2020
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By David South, Development Challenges, South-South Solutions

SOUTH-SOUTH CASE STUDY

Since the 1950s, science fiction has been telling the world we will soon be living with robots. While robots have emerged, they have been mostly kept to heavy industry, where machines can perform dangerous, hot and unpleasant repetitive tasks to a high standard.

But China is pioneering the move to mainstream robots in more public spheres. And the country is promising big changes in the coming decade.

Robots, strange as it may seem, can play a key role in development and fighting poverty.

If used intelligently, the rise of robots and robotics – itself a consequence of huge technological advances in information technology, the Internet, nanotechnology,artificial intelligence, and mobile communications – can free workers from boring, difficult and dangerous jobs. This can ramp up the provision of public goods like cleaning services in urban areas, or remove the need to do back-breaking farming work.

Robotics also offers a new field of high-tech employment for countries in the global South who are producing far more educated engineering and science students than they can currently employ. These students can help build the new robot economy.

China is considered to be in the early stages of competing with robot pioneers such as Japan, Switzerland, Germany, Sweden and the United States. And China still has a low penetration of industrial robots per population. In 2011 estimates placed the number of industrial robots in China at 52,290 (International Federation of Robotics) (ifr.org).

In the years ahead, China confronts a double demographic problem. It has the world’s largest elderly population, who will need care, and it also has a shrinking number of young people available to work as a result of the country’s one-child policy (http://en.wikipedia.org/wiki/One-child_policy).

Robots can help solve these problems.

China started its robotics research in the 1970s and ramped it up from 1985. It has already made significant progress manufacturing domestic robots for cleaning. The Xiamen Lilin Electronics Co., Ltd. (http://cnlilin.en.made-inchina.

com/) makes vacuum cleaners that are small round robots smart enough to return to their recharging stations when low on power. Another firm, Jetta Company (http://www.jetta.com.hk/home.htm), has built and sells the iRobot Roomba vacuum cleaning and floor-washing robots (http://www.irobot.com/uk/store.aspx?camp=ppc:google:products_roomba:G_790612075_1846279957_iRobot%20roomba:roomba_brand&gclid=CMiezMiG8a4CFc4LtAodYE3MKw).

For the heavy duty stuff, there is Ningbo’s Dukemen Robot, sold with the slogan “man, technology, robot”. The company manufactures arm-like robots for heavy lifting and lifting in dangerous or uncomfortable environments (dukerobot.com/ks/robot-manufacturers/).

A company called Quick specializes in making soldering equipment for manufacturing electronic components and sells robots that can do this with high accuracy and speed (quick-global.com/9-new-soldering-robot-1.html).

Other robotic advances in China include a robot dolphin that swims through the water measuring its quality.

There are also robots in development to do housework and help people who need assistance in the home like the elderly and the disabled. These robots can monitor a person’s physical condition and provide psychological counselling and search for, and deliver, requested items. One example is called UNISROBO, and is based on the Japanese robot PaPeRo robot (http://www.nec.co.jp/products/robot/en/index.html).

Still other robots can perform surgical procedures or even play sport, like Zhejiang University’s ping pong-playing robot (http://www.youtube.com/watch?v=4BtHYHi7trA).

Even more ambitiously, China is developing robots to send to the moon.

The push to introduce robots into the workplace and wider society is receiving considerable attention in China.

The Taiwan-based technology company Foxconn – well-known for assembling products for the American company Apple, maker of the iPad and iPhone -has pledged to deploy a million robots in its Chinese factories in the coming years to improve efficiency.

Some are forecasting that if China starts building robots on the scale it has pledged, then the world’s population of manufacturing robots will grow tenfold in 10 years.

China is also broaching one of the trickiest aspects of robotics – getting robots to interact with humans.

The tricky bit in robotics is getting interaction with human beings right and to avoid the experience being intimidating or frightening. One sector that is already ahead in experimenting with this aspect of robots is the restaurant business. One robot being used in restaurants sits on a tricycle trolley laden with drinks. It cycles from table to table in endless rotation allowing customers to choose drinks when they like.

The first robot restaurant started a trial run in 2010 in Jinan (http://en.wikipedia.org/wiki/Jinan), the capital of Shandong Province. The hot pot restaurant uses six robots to help with the service. The restaurant has also given itself the perfect name for this new approach: Continental Robot Experience Pavilion. Adorned with robot posters, the restaurant is 500 square metres in size and can seat 100 diners.

Diners at the Continental Robot Experience Pavilion are greeted by two ‘female’ “beauty robot receptionists” dressed in uniforms. Inside, the six robot waiters serve the customers. There are two to deliver drinks and two to serve the small tables and two to serve the big tables.

The robot comes to the table and takes the customers’ orders for food dishes and drinks. The robots, designed with sensors to stop them moving when they sense something or someone in front of them, are able to handle 21 tables and deal with the 100 customers at a single sitting.

The robots have proven so effective, the restaurant’s staff can stay focused on administration and providing assistance. The cooking is still done by human beings.

This trial run is designed to test the concept and the novelty of having robots attracting customers, the restaurant’s manager told the People’s Daily Online.

The plan is to increase the number of robots to 40 and also to have robots do cleaning and other tasks.

“They have a better service attitude than humans,” said Li Xiaomei, 35, who was visiting the restaurant for the first time. “Humans can be temperamental or impatient, but they don’t (the robots) feel tired, they just keep working and moving round and round the restaurant all night,” Li said to China Daily.

Published: March 2012

Resources

1) The Robot Report: It boasts compiling more than 1,400 robotics-related links and is about “Tracking the business of robotics”. Website: therobotreport.com

2) The Robot Shop: Bills itself as “The world’s leading source for professional robot technology” and sells online all the parts, kits, toys, tools and equipment to get any enthusiast or small and medium enterprise working with robotics quickly. Website: robotshop.com

3) Robot App Store: Sells ‘apps’ or software applications to expand the capabilities of robots. It also operates as a store for application developers to sell their robot apps to others. Also has information and resources on how to get started making robot apps and making money from making robot apps. Website: robotappstore.com

4) Roboearth: Funded by the European Union, RoboEarth is an online, open source network where robots can communicate with each other and share information and “learn from each other about their behaviour and their environment. Bringing a new meaning to the phrase “experience is the best teacher”, the goal of RoboEarth is to allow robotic systems to benefit from the experience of other robots, paving the way for rapid advances in machine cognition and behaviour, and ultimately, for more subtle and sophisticated human-machine interaction. Website: roboearth.org

5) Robotland: A blog writing about the “visions, ideas, innovations, awards, trends and reports from leading robotics research and development places in the world”. Website: http://robotland.blogspot.co.uk/

6) China Hi-Tech Fair: Running from 16-21 November 2012, the Fair is a great way to see the latest developments in robotics in China. Website: chtf.com/english/

7) Singularity Hub: A cornucopia of robotic resources and news on “science, technology and the future of mankind”. Website: http://singularityhub.com/

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Citations

Cited in Studies in Intelligence, Autonomous Systems in the Intelligence Community: Many Possibilities and Challenges, Vol. 59, No.1 (Extracts, March 2015).

*Studies in Intelligence*, Vol. 59, No.1 (Unclassified articles from March 2015).

Autonomous Systems in the Intelligence Community: Many Possibilities and Challenges by Jenny R. Holzer, PhD, and Franklin L. Moses, PhD in Studies in Intelligence Vol 59, No. 1 (Extracts, March 2015).