Category Archives: Engineering

World’s Smallest Snake Found in Barbados

photo of Leptotyphlops carlae

The world’s smallest species of snake, Leptotyphlops carlae, with adults averaging just under 4 inches in length, has been identified on the Caribbean island of Barbados. The species — which is as thin as a spaghetti noodle and small enough to rest comfortably on a U.S. quarter — was discovered by Blair Hedges, an evolutionary biologist at Penn State.

Hedges determined that the Barbados species is new to science on the basis of its genetic differences from other snake species and its unique color pattern and scales. He also determined that some old museum specimens that had been misidentified by other scientists actually belong to this new species.

Scientists use adults to compare sizes among animals because the sizes of adults do not vary as much as the sizes of juveniles and because juveniles can be harder to find. In addition, scientists seek to measure both males and females of a species to determine its average size. Using these methods, Hedges determined that this species, is the smallest of the more than 3,100 known snake species.

According to Hedges, the smallest and largest species of animals tend to be found on islands, where species can evolve over time to fill ecological niches in habitats that are unoccupied by other organisms. Those vacant niches exist because some types of organisms, by chance, never make it to the islands. For example, if a species of centipede is missing from an island, a snake might evolve into a very small species to “fill” the missing centipede’s ecological niche.

In contrast to larger species — some of which can lay up to 100 eggs in a single clutch — the smallest snakes, and the smallest of other types of animals, usually lay only one egg or give birth to one offspring. Furthermore, the smallest animals have young that are proportionately enormous relative to the adults. For example, the hatchlings of the smallest snakes are one-half the length of an adult, whereas the hatchlings of the largest snakes are only one-tenth the length of an adult. The Barbados snake is no exception to this pattern. It produces a single slender egg that occupies a significant portion of the mother’s body.

Toyota Winglet – Personal Transportation

Winglet Personal Mobility Device from Toyota

Toyota has a long term vision. The population of Japan is aging rapidly. Toyota has invested in personal transportation and personal robotic assistance for quite some time. I must admit this new Winglet doesn’t seem like an incredible breakthrough to me (their earlier iUnit seems much better to me – though I am sure much more expensive too). The interest to me is in their continued focus on this market which I think is a smart move. The aging population worldwide (and others) will benefit greatly from improved personal mechanical assistance.

The Winglet is one of Toyota’s people-assisting Toyota Partner Robots. Designed to contribute to society by helping people enjoy a safe and fully mobile life, the Winglet is a compact next-generation everyday transport tool that offers advanced ease of use and expands the user’s range of mobility.

The Winglet consists of a body that houses an electric motor, two wheels and internal sensors that constantly monitor the user’s position and make adjustments in power to ensure stability. Meanwhile, a unique parallel link mechanism allows the rider to go forward, backward and turn simply by shifting body weight, making the vehicle safe and useful even in tight spaces or crowded environments.

Toyota plans various technical and consumer trials to gain feedback during the Winglet’s lead-up to practical use. Practical tests of its utility as a mobility tool are planned to begin in Autumn 2008 at Central Japan International Airport (Centrair) near Nagoya, and Laguna Gamagori, a seaside marine resort complex in Aichi Prefecture. Testing of its usefulness in crowded and other conditions, and how non-users react to the device, is to be carried out in 2009 at the Tressa Yokohama shopping complex in Yokohama City.

Toyota is pursuing sustainability in research and development, manufacturing and social contribution as part of its concept to realize “sustainability in three areas” and to help contribute to the health and comfort of future society. Toyota Partner Robot development is being carried out with this in mind and applies Toyota’s approach to monozukuri (“making things”), which includes its mobility, production and other technologies.

Toyota aims to realize the practical use of Toyota Partner Robots in the early 2010s.

On a personal note, I bought some more Toyota stock last week. The stock has declined a bit recently. Toyota is one of the companies in my 12 stocks for 10 years portfolio.

Students at Powhatan Engineering Camp

Students attend Powhatan’s first-ever engineering camp

The 28 students participating in the first-ever Powhatan County Schools engineering camp spent eight days doing hands-on activities like building model amusement park rides and suspension bridges, and taking field trips to see engineering in action. They visited the Richmond Times Dispatch’s production facility, where they observed robots shuttling stacks of paper back and forth, and the Watkins Center, where they observed engineers at work on a construction site.

The group even enjoyed a presentation from a NASA engineer, who spoke of his experience working on the Mars rover.

These engineering camps help kids enjoy their naturally inquisitive minds – which unfortunately they don’t get to do often enough.

Mobile Phone-based Vehicle Anti-theft System

18 year old self-taught electronics ‘genius’ invents mobile phone-based vehicle anti-theft system

Morris Mbetsa, an 18 year old self-taught inventor with no formal electronics training from the coastal tourist town of Mombasa on the Indian Ocean in Kenya, has invented the “Block & Track”, a mobile phone-based anti-theft device and vehicle tracking system.

The system, that Mbetsa created by combining technology from projects that he has completed in the past, uses a combination of voice, DTMF and SMS text messages over cell-based phone service to carry codes and messages that allow control of some of a vehicles’ electrical systems including the ignition to manage vehicle activation and disabling remotely in real time.
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Mbetsa is now looking for funding to commercially develop his proof of concept and bring it to the market

Another cool example of engineering in action.

Science Policy Research Virtual Intern

externs.com is another curiouscat.com web site that lists internship opportunities. I am surprised that virtual internships and externships have not grown much more popular in the last 5 years. Scientists and Engineers for America do have such a virtual internship:

Members of the first Scientists and Engineers for America (SEA) virtual intern class can be located anywhere in the world and will work remotely on specific SEA projects. Intern will research the positions elected officials and candidates for office take on science policy issues.

The internship is for between 10 to 20 hours per week and can be done anywhere, as long as you have a computer, internet connection, and telephone. The dates of the internship are flexible accepted on a rolling basis.

Also see the externs.com science internships and engineering internships. If you have an internship you would like included, please add it (there is not cost for the site, listing or using).

Awesome Robot: uBot-5

Cool video on the uBot-5 from UMass Amherst.

The uBot-5 is dynamically stable, using two wheels in a differential drive configuration for mobility. Dynamically stable robots are well suited to environments designed for humans where both a high center of mass and a small footprint are often required.

via: Pop Culture and Engineering Intersect

Toyota has long been interested in personal robot assistants. And the uBot-5, under development at UMass-Amherst, is also looking to meeting that need: Robot developed by computer scientists to assist with elder care:

Baby boomers are set to retire, and robots are ready to help, providing elder care and improving the quality of life for those in need.
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The uBOT-5 carries a Web cam, a microphone, and a touch-sensitive LCD display that acts as an interface for communication with the outside world. “Grandma can take the robot’s hand, lead it out into the garden and have a virtual visit with a grandchild who is living on the opposite coast,” says Grupen, who notes that isolation can lead to depression in the elderly.

Grupen studied developmental neurology in his quest to create a robot that could do a variety of tasks in different environments. The uBot-5’s arm motors are analogous to the muscles and joints in our own arms, and it can push itself up to a vertical position if it falls over. It has a “spinal cord” and the equivalent of an inner ear to keep it balanced on its Segway-like wheels.

Such robots have a huge market waiting for them if engineers can provide models that can be useful at the right price. The future of such efforts looks very promising.

Fixing the World on $2 a Day

MIT’s Guru of Low-Tech Engineering Fixes the World on $2 a Day

The charcoal project is the responsibility of Mary Hong, a 19-year-old branching out beyond her aerospace major this semester. She and the other students, coincidentally all women, are enrolled in Smith’s D-Lab, a course that is becoming quietly famous beyond the MIT campus in Cambridge, Mass. The D is for development, design and dissemination; last fall, more than 100 students applied for about 30 slots. To prepare for their field work, D-Lab students live for a week in Cambridge on $2 per day. (Smith joins in.) Right now, eight more D-Lab teams are plying jungle rivers, hiking goat trails and hailing chicken buses in seven additional countries—Brazil, Honduras, Ghana, Tanzania, Zambia, India and China. In Smith’s view, even harsh aspects of Third World travel have their benefits. “If you get a good bout of diarrhea from a waterborne disease,” she says, “you really understand what it means to have access to clean drinking water.”
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Despite their simplicity, Smith’s creations made her a minor celebrity at MIT, and in 2000 she became the first woman to win the $30,000 Lemelson-MIT Student Prize. The same year, she began teaching full time at the university. It was nearly 30 years since German economist E.F. Schumacher had published Small is Beautiful: Economics as if People Mattered, the book credited with launching the appropriate technology movement. Schumacher argued that many of the infrastructure projects funded by the World Bank and other organizations hadn’t improved lives on the village level. “He rightly and aptly pointed out that big solutions don’t fit for villages. You have to make it small,”

A Whale of a Turbine

A whale of a turbine

a flipperlike prototype is generating energy on Canada’s Prince Edward Island, with twin, bumpy-edged blades knifing through the air. And this summer, an industrial fan company plans to roll out its own whale-inspired model – moving the same amount of air with half the usual number of blades and thus a smaller, energy-saving motor.

Some scientists were sceptical at first, but the concept now has gotten support from independent researchers, most recently some Harvard engineers who wrote up their findings in the respected journal Physical Review Letters.
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when models of the bumpy flippers were tested in a wind tunnel, Fish and his colleagues found something interesting. The flippers could be tilted at a higher angle before stall occurred.

The scientific literature had scant reference to the flipper bumps, called tubercles. Fish reasoned that because the whale’s flippers remained effective at a high angle, the mammal was therefore able to manoeuvre in tight circles. In fact, this is how it traps its prey, surrounding smaller fish in a “net” of bubbles that they are unwilling to cross.

In 2004, along with engineers from the US Naval Academy and Duke University, Fish published hard data: Whereas a smooth-edged flipper stalled at less than 12 degrees, the bumpy, “scalloped” version did not stall until it was tilted more than 16 degrees – an increase of nearly 40 percent.

Fish then partnered with Canadian entrepreneur Stephen Dewar to start WhalePower, a Toronto-based company that licenses the technology to manufacturers.
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It has all been a bit of a culture shock for Fish, who is more at home in the open world of academia than the more secretive realm of inventions and patents. Two decades ago, his only motivation was to figure out what the bumps were for.

“I sort of found something that’s in plain sight,” he says. “You can look at something again and again, and then you’re seeing it differently.”

Now for Something Completely Different

I think we might have another young engineering on our hands, with the right training 🙂 She knows what she wants and isn’t stymied by constraints that would probably blind most of us to the possibilities (even if we were her size). Quite a fun webcast: the reactions of the people are great.

How To Beat The Claw Game – Watch more free videos

#2 Engineering Blog

A few months ago I posted on our #1 Engineering Blog status. Now we are ranked second in 3 different measures. In the same Google and Yahoo rankings we talked about in the original post we now show up 2nd.

And Rich Hoeg at eContent posted on the Engineering Jobs top 100 where we are tied for 2nd with the Women in Science blog: Engineered to Perfection … Almost!.

See our directory of science and engineering blogs.

In a desperate search to find some way we are still first I found that Ask has us 1st.