Tag Archives: Research

Diplomacy and Science Research

Today more and more locations are becoming viable for world class research and development. Today the following have significant ability: USA, Europe (many countries), Japan, Canada, China, Brazil, Singapore, Israel, India, Korea and Australia (I am sure I have missed some this is just what come to mind as I type this post) and many more are moving in that direction.

The continued increase of viable locations for significant amounts of cutting edge research and development has huge consequences, in many areas. If paths to research and development are blocked in one location (by law, regulation, choice, lack of capital, threat of significant damage to the career of those who would choose such a course…) other locations will step in. In some ways this will be good (see below for an explanation of why this might be so). Promising new ideas will not be stifled due to one roadblock.

But risks of problems will also increase. For example, there are plenty of reasons to want to go carefully in the way of genetically engineered crops. But those seeking a more conservative approach are going to be challenged: countries that are acting conservatively will see other countries jump in, I believe. And even if this didn’t happen significantly in the area of genetically engineered crops, I still believe it will create challenges. The ability to go elsewhere will make those seeking to put constraints in place in a more difficult position than 50 years ago when the options were much more limited (It might be possible to stop significant research just by getting a handful of countries to agree).

Debates of what restrictions to put on science and technology research and development will be a continuing and increasing area of conflict. And the solutions will not be easy. Hopefully we will develop a system of diplomacy that works, but that is much easier said than done. And the United States will have to learn they do not have the power to dictate terms to others. This won’t be an easy thing to accept for many in America. The USA will still have a great deal of influence, due mainly to economic power but that influence is only the ability to influence others and that ability will decline if diplomacy is not improved. Diplomacy may not seem to be a science and engineering area but it is going to be increasingly be a major factor in the progress of science and engineering. Continue reading

The World’s Best Research Universities

Shanghai’s Jiao Tong University produces a ranking of the top universities annually (since 2003). The methodology used focuses on research (publications) and faculty quality (Fields and Nobel awards and citations). While this seems a very simplistic ranking it still provides some interesting data: highlights from the 2006 rankings of Top 500 Universities worldwide include:

Country representation in the top schools:

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location Top 101 % of World
Population		 % of World GDP % of top 500
USA 54   4.6%   28.4%  33.4%
United Kingdom 10  0.9   5.1 8.6
Japan   6 2.0 11.2 6.4
Canada   4  0.5   2.4 8.0
The rest of Europe 18 4.4
Australia   2   0.3   1.5 3.2
Israel   1   0.1   0.3 1.4

Update: see our post on 2007 best research universities results

Top 10 schools:

  • Harvard University
  • Cambridge University
  • Stanford University
  • University of California at Berkeley
  • Massachusetts Institute of Technology(MIT)
  • California Institute of Technology
  • Columbia University
  • Princeton University
  • University Chicago
  • Oxford University

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Bye Bye Bees

Photo of a bee

The Vanishing by Sharon Levy:

One-third of the food we eat comes from crops that need animal pollinators, a role often filled by bees but sometimes by butterflies, beetles, birds, or bats. Bee-pollinated foods include squash, tomatoes, peppers, apples, and pears. Unfortunately, the honeybees surrounding me are members of a threatened tribe, whose loss would have a dire effect on farmers, not to mention everyone who eats fruits and vegetables.

This problem has been increasing in recent years.

Fees for renting beehives shot up from about $48 to as much as $140 per colony, a previously unheard-of amount. Beekeepers traveled from as far away as Florida and North Carolina to service California’s almond groves. For the first time in 50 years, U.S. borders were opened to honeybees from New Zealand and Australia. The fate of a $1.2 billion crop — more than half of all almond production worldwide — rested on the slender back of the embattled honeybee.

Natural systems seem so powerful that it hardly seems possible that running low on bees is really a concern. But more and more such stories (fish stocks being wiped out…) are being told. This is one of many reasons we need more scientists to study these areas and keep society informed. Enjoy reading this article it is a great example of science, scientific study, communicating scientific knowledge and the impact on society.

Photo by Justin Hunter

Singapore Supporting Science Researchers

Grooming research talent seen as crucial for Singapore by Jeana Wong

And to attract overseas talents, it will need to build world-class facilities, attract skilled mentors and focus its research spending on clear areas in which it has a strong hold.

He says it is not unusual for governments to develop infrastructure and talent in the basic sciences at the tertiary education level.

Singapore reportedly is even looking at proposing a grand management plan for an Indonesian island.
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China challenges dominance of USA, Europe and Japan

China challenges dominance of USA, Europe and Japan in scientific research according to UNESCO Science Report 2005

The report says that “the most remarkable trend is to be found in Asia, where gross expenditure on R&D has grown from a world share of 27.9% in 1997 to 31.5% in 2002”.

This hardly seems impressive compared to the growth of Google say. However the amounts of money for global R&D are huge and so changes as less dramatic than other areas. Still this is significant and seems likely to continue to move in this direction.
Continue reading

Ants on Stilts for Science

Ant on stilts

When Ants Go Marching, They Count Their Steps by Bjorn Carey

One is that they do it like honeybees and remember visual cues, but experiments revealed ants can navigate in the dark and even blindfolded. Another disproved hypothesis was that because ants scurry at a steady pace, they could time how long it took them to get to and fro. Other studies have shown that once ants find a good source of food, they teach other ants how to find it.

The ant “pedometer” technique was first proposed in 1904, but it remained untested until now.

Scientists trained desert ants, Cataglyphis fortis, to walk along a straight path from their nest entrance to a feeder 30 feet away. If the nest or feeder was moved, the ants would break from their straight path after reaching the anticipated spot and search for their goal.

A simple example of the scientific process (another one posted yesterday about birds and global warming).
Continue reading

Tour the Carnegie Mellon Robotics Lab

Robert Scoble videotaped his visit to the Carnegie Mellon Robotics Lab and posted the video to Microsoft’s channel 9 – which has quite a few interesting videos.

They have some of the coolest people I’ve ever met and the robotics might surprise you (two of the students were building soccer-playing robots on top of Segways, other students were building surgery tools, really great stuff).

More robotics webcasts from Channel 9.

China and USA Basic Science Research

US$425 million to boost Chinese innovation by Fu Jing:

The National Natural Science Foundation of China will provide 3.4 billion yuan (US$425 million) in funding for basic science, it announced last week (25 May).

“The boost has shown the government’s determination for China to become an innovative country by 2020,” said the foundation’s vice-president Zhu Zuoyan. He added that the foundation’s research funding is set to grow by about 20 per cent a year for the next five years.

According to government plans, China’s total investment in science and technology should reach 2.5 per cent of its gross domestic product by 2020 — a share similar to that spent by industrialised nations.
By that time, China aims to be spending about US$112 billion annually on research and development (see China announces 58-point plan to boost science).

U.S. National Science Foundation Celebrates Opening of Beijing Office

The National Science Foundation is a U.S. government agency that supports fundamental research and education across all fields of science and engineering, with an annual budget of $5.58 billion.

According to the NSF report, Science and Engineering Indicators 2006, China ranked fourth in the world in the year 2000 in research and development, with $48.9 billion in expenditures. Two years later, the country ranked third, behind the United States and Japan, spending an estimated $72.0 billion on R&D.

“It is important for the U.S. scientific community, especially young researchers, to be aware of and consider collaborating with colleagues in China in this environment,” said Beijing office Director William Chang.

The NSF Beijing Office is NSF’s third foreign office. NSF also maintains research offices in Paris and Tokyo.

Seeing Machine from MIT

View from photo: an image (of a staircase) created to approximate the view through a seeing machine

MIT poet develops ‘seeing machine’ by Elizabeth A. Thomson

The work is led by Elizabeth Goldring, a senior fellow at MIT’s Center for Advanced Visual Studies. She developed the machine over the last 10 years, in collaboration with more than 30 MIT students and some of her personal eye doctors. The new device costs about $4,000, low compared to the $100,000 price tag of its inspiration, a machine Goldring discovered through her eye doctor.

The pilot clinical trial of the seeing machine involved visually impaired people recruited from the Beetham Eye Institute. All participants had a visual acuity of 20/70 or less in the better-seeing eye. A person with 20/70 vision can see nothing smaller than the third line from the top of most eye charts. Most participants, however, had vision that was considered legally blind, meaning they could see nothing smaller than the “big E” on a standard eye chart.

Goldring and colleagues are now working toward a large-scale clinical trial of a color seeing machine (the device tested in the pilot trial was black and white).

Singapore woos top scientists with new labs

Singapore woos top scientists with new labs, research money by Paul Elias:

Singapore’s siren song is growing increasingly more irresistible for scientists, especially stem cell researchers who feel stifled by the U.S. government’s restrictions on their field.

Two prominent California scientists are the latest to defect to the Asian city-state, announcing earlier this month that they, too, had fallen for its glittering acres of new laboratories outfitted with the latest gizmos.

They weren’t the first defections, and Singapore officials at the Biotechnology Organization’s annual convention in Chicago this week promise they won’t be the last.

Other Asian countries, including Japan, South Korea and even China, are also here touting their burgeoning biotechnology spending to the 20,000 scientists and biotechnology executives attending the conference.

In all, the country has managed to recruit about 50 senior scientists — far short of what it needs, but a start for a tiny country of 4.5 million people off the tip of Malaysia.

Another 1,800 younger scientists from all corners of the world staff the Biopolis laboratories, which were built with $290 million in government funding and another $400 million in private investment by the two dozen biotechnology companies based there. Biopolis opened in 2003 and contains seven buildings spread over 10 acres and connected by sky bridges