Author Archives: curiouscat

Robotic Prosthetic Arms for People

Dean Kamen latest invention was funded by DARPA. Once again he is doing amazing stuff. It is great what engineers can do (many worked together to get the progress so far) when given the opportunity. We need many more such efforts.

Dean Kamen Lends a Hand, or Two (August 2007):

DARPA has spent almost $25 million funding two independent teams, Mr. Kamen’s DEKA Research & Development Corp. and a group at Johns Hopkins’ University in an effort they hope will ultimately lead to commercial prosthesis that can be controlled from the human brain.

The innovation in the DEKA arm lies in its ultra light weight carbon shell, giving the user an exoskeleton with which to gain the leverage necessary to do some of the extraordinary things the system makes possible, such as lifting a 40 lb. weight.

To make the system function, the DEKA engineers coated the inside of the shell with a mosaic of thin air bladders that can be individually filled with air to offer padding and rigidity necessary to make possible normally ordinary tasks such as operating a portable power drill. When the arm is not in use the system deflates, or can even alternately fill and empty to offer a massage effect, so that it is not painful to wear for long periods.

The DEKA system is controlled by a joystick that is moved by the remaining portion of the user’s arm and by a second control mechanism in the user’s shoe. Mr. Kamen said that despite the complexity of controlling an ensemble of motors and mechanical servo devices, a user can gain basic functional control in just one day.

International Engineering Education Data: USA, China, India

Several years ago we posted about the report on the USA Under-counting Engineering Graduates. The authors, and two others, have written a new report that provides some useful additions – Getting the Numbers Right: International Engineering Education in the United States, China, and India

Since the late 1990s, the United States had a modest increase in bachelor’s degree output, from just over 103,000 in 1998–99 to more than 137,000 in 2003–04 before declining slightly to about 129,000 in 2005–06, a growth of nearly 25 percent since 1998–99. India’s expansion at the bachelor’s level was more rapid, with four-year degree holders in engineering, CS, and IT more than tripling in the last seven years, from just over 68,000 in 1998–99 to nearly 220,000 in 2005–06. The fastest growth in bachelor’s degrees, however, appears to be occurring in China. According to the Chinese MoE, the number of bachelor’s degrees awarded has more than doubled in the last four years, from 252,000 in 2001–02 to 575,000 in 2005–06.
…
While engineering, CS, and IT degree production in the United States has been stable or increasing at all degree levels over the past ten years, a sizable percentage of these degrees are indeed being
awarded to foreign nationals. Statistics collected by the ASEE on bachelor’s, master’s and Ph.D. degrees in engineering indicate that during the 2005–06 academic year, 7.2 percent, 39.8 percent and 61.7 percent of these degrees, respectively, were awarded to foreign nationals (Figure 4). As these figures indicate, the percentage of foreign nationals is significantly higher at the graduate level, especially for Ph.D. degrees.

Put a Little Science in Your Life

Put a Little Science in Your Life By Brian Greene

And when we look at the wealth of opportunities hovering on the horizon — stem cells, genomic sequencing, personalized medicine, longevity research, nanoscience, brain-machine interface, quantum computers, space technology — we realize how crucial it is to cultivate a general public that can engage with scientific issues; there’s simply no other way that as a society we will be prepared to make informed decisions on a range of issues that will shape the future.

These are the standard – and enormously important – reasons many would give in explaining why science matters.

But here’s the thing. The reason science really matters runs deeper still. Science is a way of life. Science is a perspective. Science is the process that takes us from confusion to understanding in a manner that’s precise, predictive and reliable – a transformation, for those lucky enough to experience it, that is empowering and emotional. To be able to think through and grasp explanations – for everything from why the sky is blue to how life formed on earth – not because they are declared dogma but rather because they reveal patterns confirmed by experiment and observation, is one of the most precious of human experiences.

Excellent article by the author of The Elegant Universe.

Mapping the Human Proteome

The human genome is old news. Next stop: the human proteome

Unlike the genome, which remains essentially static between cell types and over time, the proteome is tremendously dynamic, changing constantly in response to cell-cell signalling and environmental stimuli. Thus even though -with some small exceptions – every cell in your body carries the same genome, the proteome can be wildly different between different tissues and can change rapidly over time
…
At the very least, large-scale analysis of the human proteome should allow researchers to tentatively place many of our currently anonymous genes into functional pathways. That’s a step forward for personal genomics: knowing that you have a loss-of-function mutation in a gene that may be involved in cholesterol biosynthesis is a lot more useful (in terms of guiding further clinical testing) than simply knowing that you have a mutation in hypothetical gene C11orf68.

Using Cameras Monitoring To Aid Conservation Efforts

photo of Jaguar

How Hidden Cameras Aid Conservation Efforts for Jaguars and Other Rare Animals

Tobler and his fellow authors write that “despite years of research throughout the Amazon, there are few complete mammal inventories and our knowledge of the distributions of rare and elusive species is still poor.” They explain further that traditional techniques for inventorying which animals are present in a given ecosystem, such as identification of tracks and scat, direct observations, and trapping of animals often do not account for species of animals that are rare and/or low in their numbers in a certain area. For these reasons, they wanted to test out how well cameras could document animals in the rainforest, where cover is dense and many species are hard to observe.
…
Over the two years of the study, some of the more photographed animals included the Lowland tapir, which was caught on camera 102 times and also the White-lipped Peccary (seen 210 times). Among cat species, jaguars were photographed 51 times, ocelots 46 times, pumas 25 times, margays 15 times, and jaguarundis proved the most elusive, only being photographed twice.

The four species of animals that were not photographed included the pacarana, the grison, the Southern naked-tailed armadillo, and the Bush dog.
…
Given the recent lowering of costs and improvements in camera technology, hopefully their example and those of others will help other conservationists around the world to better understand the location of important and rare animals in their respective ecosystems. Given the large range of jaguars and their need for connected habitat, this study gives us hope to think that little hidden cameras might help us better understand where these charismatic cats and other rare animals roam, and consequently give us better information with which to help protect them.

Photo Credit: purplegrum at Flickr under a Creative Commons attribution license

New Iron Based Superconductors

Research Suggests Novel Superconductor Is in a Powerful Class All its Own

discovered surprising magnetic properties in the new superconductors that suggest they may have very powerful applications — from improved MRI machines and research magnets, to a new generation of superconducting electric motors, generators and power transmission lines. The research also adds to the long list of mysteries surrounding superconductivity, providing evidence that the new materials, which scientists are calling “doped rare earth iron oxyarsenides,” develop superconductivity in quite a new way
…
Early this year, Japanese scientists who had been developing iron-based superconducting compounds for several years, finally tweaked the recipe just right with a pinch of arsenic. The result: a superconductor, also featuring oxygen and the rare earth element lanthanum, performing at a promising -413 degrees F (26 K). The presence of iron in the material was another scientific stunner: Because it’s ferromagnetic, iron stays magnetized after exposure to a magnetic field, and any current generates such a field. As a rule, magnetism’s effect on superconductivity is not to enhance it, but to kill it.

Iron based superconductors might resist magnetic fields over 100 Tesla

The new superconductors seem like they will be able to make improved MRI machines and research magnets, a new generation of superconducting electric motors, generators and power transmission lines. Tesla is a unit of magnetic field strength; the Earth’s magnetic field is one twenty thousandth of a tesla.

Saving Fermilab

Fermilab was once the premiere particle physics research lab. It is still a very important research lab. But, I have said before, other countries are the ones making the larger efforts lately to invest in science and technology centers of excellence that the US was making in the 1960’s and 1970’s: Economic Strength Through Technology Leadership, Investing in Technology Excellence, etc..

I have also said that the past success of the US has left it in a still very strong position. For example, the anonymous donor that saved Fermilab with a $5 million donation likely benefited from the successful investments in science centers of excellence in the past (few countries – maybe 30, can rely on large donations from wealthy individuals, to sustain centers of excellence and I don’t think any approach what the USA has now – Howard Hughes Medical Institute, Standford, MIT…).

Excellent post on the the saving of Fermilab, To the person who saved Fermilab: Thank You.:

The facility has recently seen financial difficulties which have resulted in the layoffs of research staff and dramatic cuts in experiments. The world class research facility has been left to scrape together funds to pay the bills and has even had to auction off equipment and ask staff members to take pay cuts just to keep the lights on in the laboratories.
…
Fermilab also has an illustrious history of achievements in the field of supercomputer development and parallel processing. Fermilab has been on the forefront of applying supercomputing to physics research and is one of the top supercomputing centers of the world. Fermilab has claimed the world’s most powerful supercomputer on multiple occasions – although the title is rarely held long by any system due to the continuous advancements in computing. In recent years, Fermilab has been a leader in the development of “lattice” supercomputing systems and has developed methods for efficiently utilizing the power of multiple supercomputers in different locations through more [efficient] distribution practices.

To some, the construction of the Large Hadron Collider at CERN may seem to reduce the importance of Fermilab’s capabilities, but this is not at all the case. Although the LHC may take the title for the overall size and energy levels of a particle accelerator, Fermilab remains a uniquely capable particle physics research institution. Though less powerful, the Tevatron is able to operate for longer periods of time than the LHC and will likely require less downtime for maintenance, allowing for greater access and numerous types of research activities.

11 Science Journalist Fellows at MIT

The Knight Fellowship at MIT has a class of eleven science journalists from six countries this year. All are mid-career journalists who work for general interest news media to improve the public understanding of science. They will take a sabbatical year from their jobs to improve their knowledge by taking courses at MIT and Harvard, interviewing scientists and attending various seminars and lectures during the 2008–2009 academic year. They take up residence in Cambridge in August 2008.

The fellows include: Kimani Chege, editor of TechNews Africa, from Kenya; Sabin Russell, medical writer at The San Francisco Chronicle, from the USA; Teresa Firmino, science and technology reporter for PÃºblico, from Portugal; Jonathan Fildes, science and technology reporter for BBC News, from England; and Rachel Zimmerman, health and medicine reporter for The Wall Street Journal, from the USA.

This is a great program to help some excellent science journalist to get even better. We need more excellent science journalism.

We list the Knight Science Journalism Tracker on the list of our favorite science and engineering blogs.

Bacteria “Feed” on Earth’s Ocean-Bottom Crust

Once considered a barren plain dotted with hydrothermal vents, the seafloor’s rocky regions appear to be teeming with microbial life, say scientists
…
“Initial research predicted that life could in fact exist in such a cold, dark, rocky environment,” said Santelli. “But we really didn’t expect to find it thriving at the levels we observed.” Surprised by this diversity, the scientists tested more than one site and arrived at consistent results, making it likely, according to Santelli and Edwards, that rich microbial life extends across the ocean floor. “This may represent the largest surface area on Earth for microbes to colonize,” said Edwards.
…
Santelli and Edwards also found that the higher microbial diversity on ocean-bottom rocks compared favorably with other life-rich places in the oceans, such as hydrothermal vents. These findings raise the question of where these bacteria find their energy, Santelli said.

“We scratched our heads about what was supporting this high level of growth,” Edwards said. With evidence that the oceanic crust supports more bacteria than overlying water, the scientists hypothesized that reactions with the rocks themselves might offer fuel for life.

Why doesn’t this stuff make the news over what some celebrity did or politician said… (well I must admit I am just guessing since I don’t actually watch the news or read the mass media much – other than some science, investing or economics content). Oh well, at least you get to read the Curious Cat Science blog and find out about some of the cool stuff being learned every day.

Quake Lake Danger

Quakes lakes risk ‘slurry tsunami’

This month’s 7.9 magnitude tremor spawned 34 so-called quake lakes, according to the International Association of Hydraulic Engineering and Research expert. The vast pools of water were created when the earthquake triggered landslides down plunging valleys, clogging rivers and turning them into fast-rising lakes. Twenty-eight quake lakes are at risk of bursting, according to Chinese state media agency Xinhua. But the one at Tangjiashan – on the Jianjiang river above the town of Beichuan – is the most precarious.
…
The delicate, tortuous work involves heavy machinery gingerly shifting debris from the dam, and engineers blasting dynamite to carefully punch holes in the mountain of rubble and soil – although experts warn this risks further destabilising the structure. Nearly 160,000 people in the disaster zone have already been evacuated in case the Tangjiashan quake lake bursts.
…
Troops and engineers are racing to carve a 500 metre (1,640 ft) channel out of the landscape and divert the water towards the Fujiang river. They aim to complete the giant sluice and begin draining the 300 million cubic metre capacity lake within 10 days. “Once the water begins to flow over the top of the dam there’s nothing you can do to stop it,” said Dr Alex Densmore, of Durham University’s Institute of Hazard and Risk Research.
…
Little wonder then that Premier Wen Jiabao says he regards draining the swelling quake lakes at China’s ground zero as the nation’s most urgent task.