Category Archives: Technology

President Obama Speaks on Getting Students Excited About Science and Engineering

The President announces the “Educate to Innovate” initiative, a campaign to get students excited about pursuing careers in science, technology, engineering and mathematics. Quotes from President Obama from his speech – (see webcast above):

“As President, I believe that robotics can inspire young people to pursue science and engineering.”

“Now the hard truth is that for decades we’ve been losing ground. One assessment shows American 15-year-olds now rank 21st in science and 25th in math when compared to their peers around the world.”

“And today, I’m announcing that we’re going to have an annual science fair at the White House with the winners of national competitions in science and technology. If you win the NCAA championship, you come to the White House. Well, if you’re a young person and you’ve produced the best experiment or design, the best hardware or software, you ought to be recognized for that achievement, too. Scientists and engineers ought to stand side by side with athletes and entertainers as role models, and here at the White House we’re going to lead by example. We’re going to show young people how cool science can be.”

“improving education in math and science is about producing engineers and researchers and scientists and innovators who are going to help transform our economy and our lives for the better.”

Engineering: Cellphone Microscope

UCLA Professor Aydogan Ozcan‘s invention (LUCAS) enables rapid counting and imaging of cells without using any lenses even within a working cell phone device. He placed cells directly on the imaging sensor of a cell phone. The imaging sensor captures a holographic image of the cells containing more information than a conventional microscope. The CelloPhone received a Wireless Innovations Award from Vodafone

a wireless health monitoring technology that runs on a regular cell-phone would significantly impact the global fight against infectious diseases in resource poor settings such as in Africa, parts of India, South-East Asia and South America.

The CelloPhone Project aims to develop a transformative solution to these global challenges by providing a revolutionary optical imaging platform that will be used to specifically analyze bodily fluids within a regular cell phone. Through wide-spread use of this innovative technology, the health care services in the developing countries will significantly be improved making a real impact in the life quality and life expectancy of millions.
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For most bio-medical imaging applications, directly seeing the structure of the object is of paramount importance. This conventional way of thinking has been the driving motivation for the last few decades to build better microscopes with more powerful lenses or other advanced imaging apparatus. However, for imaging and monitoring of discrete particles such as cells or bacteria, there is a much better way of imaging that relies on detection of their shadow signatures. Technically, the shadow of a micro-object can be thought as a hologram that is based on interference of diffracted beams interacting with each cell. Quite contrary to the dark shadows that we are used to seeing in the macro-world (such as our own shadow on the wall), micro-scale shadows (or transmission holograms) contain an extremely rich source of quantified information regarding the spatial features of the micro-object of interest.

By making use of this new way of thinking, unlike conventional lens based imaging approaches, LUCAS does not utilize any lenses, microscope-objectives or other bulk optical components, and it can immediately monitor an ultra-large field of view by detecting the holographic shadow of cells or bacteria of interest on a chip. The holographic diffraction pattern of each cell, when imaged under special conditions, is extremely rich in terms of spatial information related to the state of the cell or bacteria. Through advanced signal processing tools that are running at a central computer station, the unique texture of these cell/bacteria holograms will enable highly specific and accurate medical diagnostics to be performed even in resource poor settings by utilizing the existing wireless networks.

This is another great example of engineers creating technologically appropriate solutions.

Low-Cost Multi-touch Whiteboard Using Wii Remote

Using infrared (IR) light pens and the Wii Remote, it is possible to create very low-cost multi-point interactive whiteboards and multi-point tablet displays. Johnny Chung Lee, Carnegie Mellon University. Download the software. Great stuff, it is wonderful to see what people can create with technology.

Volkswagen Fun Theory: Piano Staircase

Volkswagen built this piano stairway in Stockholm, Sweden as part of their fun theory project, which aims to change people’s behavior for the better through fun. That is a great strategy.

Car Style Mass Transit Mag Lev System

Skytran is a very cool sounding transportation option. It promises, individual transportation modules traveling at 100 miles per hour within the city nonstop to many more points than light rail can service. The current non-solutions we have been attempting for decades of building more and more roads is not working.

The costs is estimated at much cheaper than other alternatives. It would be great if something like this could actually make it (it is much easier to dream about possibilities than to bring them into the world).

From the SkyTran web site:

It works like a taxi that picks you up and drives you to your destination. You travel only with people you choose to, in personal-sized vehicles. The electric vehicles are automatically driven at a constant speed on the main guideway. Like on a freeway, you travel non-stop until taking an exit-ramp at your destination. Also like a freeway, instead of intersections PRT has over-passes so you truly never have to stop… vehicles are lined up waiting for you at boarding stations, and after you get out, they either line up to wait for another rider, or go park themselves and wait for peak periods when they’ll be needed.

At 60 mph the electricity for SkyTran would cost less than 1 cent per mile (at current electricity costs of 11 cents per kWhr). By comparison, buying gas for a 30-MPG car at $2/gallon costs more than 7 times as much.

The site estimates the cost at$10 million per mile for one-way track and $15 million per mile for two-way track. Fundamentally, SkyTran track can be cheaply built because all of the components are very light-weight. Weight is why roads and trains cost so much… In comparison, SkyTran’s guideway only needs to support one 1000 pound (loaded) vehicle at a time… See the detailed cost evaluation page.
Continue reading →

William Kamkwamba on the Daily Show

Pointy haired bosses removed the video. Argh!

William Kamkwamba on the Daily show. I first posted about William’s great work in 2007 – Home Engineering: Windmill for Electricity. What a great example of what can be done by sharing scientific and engineering ideas with those who will make the effort to create workable solutions.

William has written a book on his life: The Boy Who Harnessed the Wind.

The Nobel Prize in Physics 2009

The 2009 Nobel Prize in Physics honors three scientists, who have had important roles in shaping modern information technology, with one half to Charles Kuen Kao and with Willard Sterling Boyle and George Elwood Smith sharing the other half. Kao’s discoveries have paved the way for optical fiber technology, which today is used for almost all telephony and data communication. Boyle and Smith have invented a digital image sensor – CCD, or charge-coupled device – which today has become an electronic eye in almost all areas of photography. The Nobel prize site includes great information on the science behind the research that has been honored:

The first ideas of applications of light guiding in glass fibers (i.e. small glass rods) date from the late 1920’s. They were all about image transmission through a bundle of fibers. The motivation was medicine (gastroscope), defense (flexible periscope, image scrambler) and even early television. Bare glass fibers were, however, quite leaky and did not transmit much light. Each time the fibers were touching each other, or when the surface of the fibers was scratched, light was led away from the fibers. A breakthrough happened in the beginning of the 1950’s with the idea and demonstration that cladding the fibers would help light transmission, by facilitating total internal reflection.
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Optical communication of today has reached its present status thanks to a number of breakthroughs. Light emitting diodes (LEDs) and especially diode lasers, first based on GaAs (800-900 nm) and later on InGaAsP (1-1.7 ïm), have been essential. The optical communication window has evolved from 870 nm to 1.3 ïm and, finally, to 1.55 ïm where fiber losses are lowest. Gradient-index fibers were used in the first optical communication lines. However, when moving towards longer wavelengths and longer communication distances, single-mode fibers have become more advantageous.

Nowadays, long-distance optical communication uses single mode fibers almost exclusively, following Kao’s vision. The first such systems used frequent electronic repeaters to compensate for the remaining losses. Most of these repeaters have now been replaced by optical amplifiers, in particular erbium-doped fiber amplifiers. Optical communication uses wavelength division multiplexing with different wavelengths to carry different signals in the same fiber, thus multiplying the transmission rate. The first non-experimental optical fiber links were installed in 1975 in UK, and soon after in the US and in Japan. The first transatlantic fiber-optic cable was installed in 1988.

2008 National Medals of Science and National Medals of Technology and Innovation

Presidential Medal of Science - USA
The winners of the 2008 National Medals of Science, and National Medals of Technology and Innovation, have been announced. The recipients will receive the awards a White House ceremony in October.

“These scientists, engineers and inventors are national icons, embodying the very best of American ingenuity and inspiring a new generation of thinkers and innovators,” President Obama said. “Their extraordinary achievements strengthen our nation every day – not just intellectually and technologically but also economically, by helping create new industries and opportunities that others before them could never have imagined.”

National Medal of Science
Dr. Berni Alder, Lawrence Livermore National Laboratory, CA
Dr. Francis Collins, National Institutes of Health, MD
Dr. Joanna Fowler, Brookhaven National Laboratory, NY
Dr. Elaine Fuchs, The Rockefeller University, NY
Dr. James Gunn, Princeton University, NJ
Dr. Rudolf Kalman, Swiss Federal Institute of Technology, Zurich
Dr. Michael Posner, University of Oregon, OR
Dr. JoAnne Stubbe, Massachusetts Institute of Technology, MA
Dr. J. Craig Venter, J. Craig Venter Institute, MD & CA

National Medal of Technology and Innovation
Dr. Forrest M. Bird, Percussionaire Corp., ID
Dr. Esther Sans Takeuchi, University at Buffalo, SUNY, NY
Team: Dr. John E. Warnock and Dr. Charles M. Geschke (Adobe Systems Inc., CA)
Company: IBM Corporation, NY

3D Printing is Here

photo of objects printed using a 3D printer

Photo by Jessica Sabo at the at 2009 Annual ASEE Conference.

The Future of Printing is 3D [I removed the broken link]

At this year’s annual ASEE Conference in Austin, one of the main topics of conversation started with the question, “have you seen the 3D printer?”. The company Stratasys, Inc. has created their Dimension 3D Printers. Their latest innovation is their line of uPrint machines, which are less costly (prices starting at $14,900)
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Jesse Roitenberg, the representative from Stratasys at the conference, explained the benefits of using 3D printing as opposed to building models by hand:

“With a 3D printer, you are actually able to create an object as you had designed it. Once the object is created, the designer is then able to hold, test and verify the design. The object created is more accurate and the process is less time consuming.”
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The Dimension 3D printers have been used in both educational facilities and the workplace, benefiting everyone from engineers to middle school science teachers. Below is a video of Jay Leno explaining how he was able to use the 3D printer to recreate an old steam engine car part.

Norman E. Borlaug 1914-2009

The Father Of the Green Revolution

Norman E. Borlaug, 95, an American plant pathologist who won the Nobel Peace Prize in 1970 for starting the “Green Revolution” that dramatically increased food production in developing nations and saved countless people from starvation, died Saturday at his home in Dallas.

“More than any other single person of this age, he has helped provide bread for a hungry world,” the Nobel committee said in honoring him. “Dr. Borlaug has introduced a dynamic factor into our assessment of the future and its potential.”
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In his lecture accepting the Nobel Prize, he said an adequate supply of food is “the first component of social justice. . . . Otherwise there will be no peace.”
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In 1977, Dr. Borlaug received the Medal of Freedom, the highest civilian honor of the U.S. government.

Billions Served: Norman Borlaug interviewed by Ronald Bailey

As a matter of fact, Mother Nature has crossed species barriers, and sometimes nature crosses barriers between genera–that is, between unrelated groups of species. Take the case of wheat. It is the result of a natural cross made by Mother Nature long before there was scientific man. Today’s modern red wheat variety is made up of three groups of seven chromosomes, and each of those three groups of seven chromosomes came from a different wild grass. First, Mother Nature crossed two of the grasses, and this cross became the durum wheats, which were the commercial grains of the first civilizations spanning from Sumeria until well into the Roman period. Then Mother Nature crossed that 14-chromosome durum wheat with another wild wheat grass to create what was essentially modern wheat at the time of the Roman Empire.

Durum wheat was OK for making flat Arab bread, but it didn’t have elastic gluten. The thing that makes modern wheat different from all of the other cereals is that it has two proteins that give it the doughy quality when it’s mixed with water. Durum wheats don’t have gluten, and that’s why we use them to make spaghetti today. The second cross of durum wheat with the other wild wheat produced a wheat whose dough could be fermented with yeast to produce a big loaf. So modern bread wheat is the result of crossing three species barriers, a kind of natural genetic engineering.
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I see no difference between the varieties carrying a BT gene or a herbicide resistance gene, or other genes that will come to be incorporated, and the varieties created by conventional plant breeding. I think the activists have blown the health risks of biotech all out of proportion.
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the data that’s put out by the World Health Organization and [the U.N.’s Food and Agriculture Organization], there are probably 800 million people who are undernourished in the world. So there’s still a lot of work to do.

I am a bit more cautious about supporting genetic engineering in our food supply but I agree with him that we need to remain focused on the lives of hundreds of millions of hungry people (which is far too often ignored). I am worried about the risks to the environment and human health. I am also worried about the concentration of food plants in a greatly reduced genetic varieties that are more productive in general but increase the risks of massive food failures (due to limited genetic varieties).