Category Archives: Technology

Citizen Science: Use Your Smart Phone to Help Scientists

10 Ways You Can Use Your Smartphone to Advance Science by Matt Soniak

Scientists have started to use the abilities and prevalence of smartphones to their advantage, creating apps specifically for their studies and crowdsourcing observation and data collection. When almost everyone has an Internet connection, a camera, and a GPS unit right in their phone, almost anyone can gather, organize, and submit data to help move a study along.
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The Indicator Bats Program (iBats), a joint project of the Zoological Society of London’s Institute of Zoology and The Bat Conservation Trust, got its start with a couple of researchers working in Transylvania (of course) in 2006. The idea of the project is to identify and monitor bat populations around the world by the ultrasonic echo-location calls they use to navigate and find prey.
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The goal of Project NOAH (Networked Organisms and Habitats) is pretty ambitious: “build the go-to platform for documenting all the world’s organisms.” Their app has two modes. “Spottings” lets you take photos of plants and animals you see, categorize and describe them and then submit the data for viewing on NOAH’s website and use by researchers for population and distribution studies.
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Invasive plants and animals can crowd out natives, compete with them for food sources and alter the fire ecology of an ecosystem, disrupting its natural balance. Researchers and programmers from UCLA, the Santa Monica Mountains National Recreation Area and the University of Georgia have teamed up to create the What’s Invasive citizen science program and smartphone app. Volunteers can use the app to look up lists of the top invasive species in their area, created by National Park Service rangers and biologists. If they spot a plant or animal from the list, they submit a geo-tagged observation, with optional picture and text notes, so that scientists can locate, identify, study try to remove the species.

Great stuff.

The Chemistry of Fireworks

The video features John A. Conkling, Ph.D., who literally wrote the book on fireworks — he is the author of The Chemistry of Pyrotechnics.

The earliest documentation of fireworks dates back to 7th century China.

A Syrian named Hasan al-Rammah wrote of rockets, fireworks, and other incendiaries, using terms that suggested he derived his knowledge from Chinese sources, such as his references to fireworks as “Chinese flowers”.

Chinese fireworks began to gain popularity around the mid-17th century.

Repair Cafes in The Netherlands

Repair Cafes in The Netherlands Give Life Back to Broken Objects

A new brand of DIY self-sufficiency is spreading across The Netherlands. Skilled craftswomen, mechanics, seamstresses, and handypersons are banding together to resist disposable consumer culture. It is the rise of the Repair Cafe, a place where neighbors get together to extend the life of their material belongings. “Fixers” mend clothes, restore furniture, rehabilitate electrical appliances, and enjoy each other’s company while industriously toiling away. The first cafe was founded by Martine Postma in Amsterdam in October of 2009. Today, there are 20 fully operational Repair Cafes, and 50 more in the planning stages.

I really like these efforts. We throw away too much stuff that has plenty of useful life left. Also it is a great way to build community. And it is an interesting way to learn about products we use everyday (both by fixing them and having your items fixed). The throw away culture is something we should aim to change. By these actions and also by engineers designing products to be fixed instead of thrown away. I donated to a similar fixer collective in Brooklyn via Kickstarter.

Largest Google Summer of Code Ever

Google summer of code allows college students to work on open source software projects during the summer and get a $5,000 stipend from Google.

Google Summer of Code 2012 by the Numbers

This 8th year of Google Summer of Code is the largest yet. More mentoring organizations received more applications from more students than ever before. We received a record number of applications – 6685 – from 4258 students from 98 countries to work with the 180 selected mentoring organizations.

We also accepted more students this year: 1,212 from 69 countries. This year India supplied the largest number of students, 227.

USA has 172 students, Germany 72, Russia 56 and China 45. This year set the highest percentage of women (self identified) yet. Guess what percentage. If you guessed 8.3% you are right.

Projects from the following organizations/software projects are included this year: Apache Software Foundation, Debian Project, Electronic Frontier Foundation/The Tor Project, GIMP, haskell.org, The JRuby Project, OpenStreetMap, Python Software Foundation, R project for statistical computing, Twitter, Wikimedia Foundation.

Google provides a stipend of 5,000 USD to the student and $500 to the mentoring organization. That puts Google’s support at over $6,500,000 this year.

Pay as You Go Solar in India

Farmers Foil Utilities Using Cell Phones to Access Solar

In October, Bangalore-based Simpa Networks Inc. installed a solar panel on Anand’s whitewashed adobe house along with a small metal box in his living room to monitor electricity usage. The 25-year-old rice farmer, who goes by one name, purchases energy credits to unlock the system via his mobile phone on a pay-as-you-go model.

When his balance runs low, Anand pays 50 rupees ($1) — money he would have otherwise spent on kerosene. Then he receives a text message with a code to punch into the box, giving him about another week of electric light.
When he pays off the full cost of the system in about three years, it will be unlocked and he will get free power.
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Across India and Africa, startups and mobile phone companies are developing so-called microgrids, in which stand- alone generators power clusters of homes and businesses in places where electric utilities have never operated.

Very cool. Worldwide, approximately 1.6 billion people have no access to electricity and another 1 billion have extremely unreliable access. The poorest spending up to 30% of their income on inefficient and expensive means of providing light and accessing electricity. Solutions like this, finding engineering solutions for basic needs that are market based, are great.

That the poor end up owning their solar system after just 3 years is great.

Creating great benefit to society with the smart adoption of technology and sustainable economics is something I love.

Thorium Nuclear Reactors

Kirk Sorensen is founder of Flibe Energy and is an advocate for nuclear energy based on thorium and liquid-fluoride fuels and author of Energy From Thorium blog.

He also taught nuclear engineering at Tennessee Technological University as a guest lecturer. He is active in nonprofit advocacy organizations such as the Thorium Energy Alliance and the International Thorium Energy Organization. He is married and has four small children.

See another video with him on why the thorium molten-salt reactor wasn’t developed (from a Google tech talk).

NASA Biocapsules Deliver Medical Interventions Based Upon What They Detect in the Body

Very cool innovation from NASA. The biocapsule monitors the environment (the body it is in) and responds with medical help. Basically it is acting very much like your body, which does exactly that: monitors and then responds based on what is found.

The Miraculous NASA Breakthrough That Could Save Millions of Lives

The Biocapsules aren’t one-shot deals. Each capsule could be capable of delivering many metred doses over a period of years. There is no “shelf-life” to the Biocapsules. They are extremely resilient, and there is currently no known enzyme that can break down their nanostructures. And because the nanostructures are inert, they are extremely well-tolerated by the body. The capsules’ porous natures allow medication to pass through their walls, but the nanostructures are strong enough to keep the cells in one place. Once all of the cells are expended, the Biocapsule stays in the body, stable and unnoticed, until it is eventually removed by a doctor back on Earth.
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Dr. Loftus [NASA] thinks we could realistically see wildspread usage on Earth within 10 to 15 years.
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The cells don’t get released from the capsule. The cells inside the capsule secrete therapeutic molecules (proteins, peptides), and these agents exit the capsule by diffusion across the capsule wall.

NASA plans to use the biocapsules in space, but they also have very promising uses on earth. They can monitor a diabetes patient and if insulin is needed, deliver it. No need for the person to remember, or give themselves a shot of insulin. The biocapsule act just like out bodies do, responding to needs without us consciously having to think about it. They can also be used to provide high dose chemotherapy directly to the tumor site (thus decreasing the side effects and increasing the dosage delivered to the target location. Biocapsules could also respond to severe allergic reaction and deliver epinephrine (which many people know have to carry with them to try and survive an attack).

It would be great if this were to have widespread use 15 years from now. Sadly, these innovations tend to take far longer to get into productive use than we would hope. But not always, so here is hoping this innovation from NASA gets into ourselves soon.

How Lysozyme Protein in Our Tear-Drops Kill Bacteria

A disease-fighting protein in our teardrops has been tethered to a tiny transistor, enabling UC Irvine scientists to discover exactly how it destroys dangerous bacteria. The research could prove critical to long-term work aimed at diagnosing cancers and other illnesses in their very early stages.

Ever since Nobel laureate Alexander Fleming found that human tears contain antiseptic proteins called lysozymes about a century ago, scientists have tried to solve the mystery of how they could relentlessly wipe out far larger bacteria. It turns out that lysozymes have jaws that latch on and chomp through rows of cell walls like someone hungrily devouring an ear of corn.

“Those jaws chew apart the walls of the bacteria that are trying to get into your eyes and infect them,” said molecular biologist and chemistry professor Gregory Weiss, who co-led the project with associate professor of physics & astronomy Philip Collins.

The researchers decoded the protein’s behavior by building one of the world’s smallest transistors – 25 times smaller than similar circuitry in laptop computers or smartphones. Individual lysozymes were glued to the live wire, and their eating activities were monitored.

“Our circuits are molecule-sized microphones,” Collins said. “It’s just like a stethoscope listening to your heart, except we’re listening to a single molecule of protein.”

It took years for the UCI scientists to assemble the transistor and attach single-molecule teardrop proteins. The scientists hope the same novel technology can be used to detect cancerous molecules. It could take a decade to figure out but would be well worth it, said Weiss, who lost his father to lung cancer.

“If we can detect single molecules associated with cancer, then that means we’d be able to detect it very, very early,” Weiss said. “That would be very exciting, because we know that if we treat cancer early, it will be much more successful, patients will be cured much faster, and costs will be much less.”

The project was sponsored by the National Cancer Institute and the National Science Foundation. Co-authors of the Science paper are Yongki Choi, Issa Moody, Patrick Sims, Steven Hunt, Brad Corso and Israel Perez.

Remote Presence Robot

Anybots allow remote presence today. They can be rented for just $600 a month. You can purchase your own for just $15,000.

The newest version, just unveiled at a CES has a much bigger screen (which seems very wise to me).

This is another example of robots making it into real use. While I am sure few workplaces are ready for this jump today, 10 or 20 years from now a telepresence robot (that can do much more) is likely I think to be significantly used. Not only will functionality increase, prices will drop dramatically: as the wonderful combination so often happens with technology. There is a great deal of effort going into making commercial viable “personal” robots. I think these efforts will make significant inroads in the next 10-20 years.

My old office wouldn’t have been willing to pay $15,000 but one of our developers looked into creating his own (after he moved and was working remotely). He hasn’t quite gotten it done yet, but may at some point.

Related: Managing By Rolling Around (I like how the robot owner used the robot to have his mother attend his wedding (and dressed up the robot) – Robot Finds Lost Shoppers and Provides Directions – New Yorkers Help Robot Find Its Way in the Big City – Toyota Partner Robots

Robot Prison Guards in South Korea

photo of robot prison guard

Robotic prison wardens to patrol South Korean prison

The one-month trial will cost 1bn won (Â£554,000) and is being sponsored by the South Korean government. It is the latest in a series of investments made by the state to develop its robotics industry.

The country’s Ministry of Knowledge Economy said in January that it had spent the equivalent of Â£415m on research in the sector between 2002 and 2010. It said the aim was to compete with other countries, such as Japan, which are also exploring the industry’s potential.

In October the ministry said the Korean robot market had recorded 75% growth over the past two years and was now worth about Â£1 billion…

The potential market for robotics is huge. Smart countries are investing in becoming the centers for excellence in that area. Japan and South Korea may well be in the lead. The USA, Germany and China also have strong communities.