Technology

The Brain Gets the Big Picture

When you look at a picture, your brain has to put together lines, patterns and shapes to make a meaningful scene. New research by neuroscientists at the University of California, Davis and the University of Minnesota shows that higher regions of the brain can quickly recognize patterns and shapes and tell lower areas of the brain to stop processing the information. The finding confirms predictions from computer models and helps explain how the human brain makes sense of what the eyes see.

Gov’t to establish national schizophrenia brain image database

Brain images from hundreds of people with schizophrenia at 10 research sites nationwide will be shared in a first-of-its-kind research project funded by the National Center for Research Resources (NCRR), a branch of the National Institutes of Health. The project will create an extensive database of brain information that it is hoped will expand understanding of disabling brain illnesses such as schizophrenia and speed the development of new treatments.

Software assesses terror threat … to cows

Software developed at the federal Sandia National Laboratories could help farmers keep the nation’s dairy supply safer from bioterrorism. The system asses factors such as dairy location, numbers of buildings, how many cows there are and the types of shelters present. It then provides a risk assessment. Dull, you say? Maybe. But dairy is a multibillion dollar industry in the U.S. and no one wants to eat anthrax-tainted ice cream.

Advanced Sonar Improves Mine Detection

Submarines should have improved ability to detect undersea explosive mines thanks to advancement of a type of sonar that uses a relatively small antenna to mimic a much larger one. The technology bounces sound waves off of the sea floor, one small patch at a time. Onboard processors then combine these individual glimpses to create a larger image of the area surveyed.

New Technique Reveals Structure of Films With High Resolution

Scientists have developed and tested a new imaging technique that reveals the atomic structure of thin films with extremely high resolution. For the first time, the technique has shown very precisely how the atoms of the first layers of a film rearrange under the action of the substrate on which the film is grown. Thin films are currently used in technologies including electronic chips, coatings, and magnetic recording heads. To improve the properties of these materials and create even thinner structures ? such as smaller electronic chips ? scientists are now trying to understand how the films interact with the substrate on which they are grown.

New material could impact rechargeable batteries

Researchers have transformed a relatively common material, lithium iron phosphate, into one with potential for the next generation of rechargeable batteries in electric cars and other devices. Among other advantages, the material could make such batteries cheaper and safer.

Schmoozing good for the brain

Michigan researchers say they’ve found that shooting the bull with friends has measurable benefits for the brain, keeping it sharp in later life. “Most advice for preserving and enhancing mental function emphasizes intellectual activities such as reading, doing crossword puzzles, and learning how to use a computer,” says the lead researcher. “But my research suggests that just getting together and chatting with friends and family may also be effective.”

Aluminum shows strange behavior; research solves old mystery

Aluminum — one of nature’s best conductors of electricity conductors of electricity — may behave like a ceramic or a semiconductor in certain situations, according to an Ohio State University scientist and his colleagues. Among the findings that appear in the current issue of the journal Science: When it comes to forming tiny structures in computer chip circuits and nanotechnology, aluminum may endure mechanical stress more than 30 percent better than copper, which is normally considered to be the stiffer metal

Non-invasive sensor can detect brainwaves remotely

Now I can see what you really think about meScientists have developed a sensor that can record brainwaves without the need for electrodes to be inserted into the brain or even for them to be placed on the scalp. Conventional electroencephalograms (EEGs) monitor electrical activity in the brain with electrodes placed either on the scalp (involving hair removal and skin abrasion) or inserted directly into the brain with needles. Now a non-invasive form of EEG has been devised by Professor Terry Clark and his colleagues in the Centre for Physical Electronics at the University of Sussex. Instead of measuring charge flow through an electrode (with attendant distortions, in the case of scalp electrodes) the new system measures electric fields remotely, an advance made possible by new developments in sensor technology.

NASA Music Out of this World

With scientific instruments on NASA’s Voyagers, Galileo, Cassini and more than two dozen other spacecraft, University of Iowa physicist Dr. Don Gurnett has been recording waves that course through the thin, electrically charged gas pervading the near-vacuum of outer space. Gurnett converted the recorded plasma waves into sounds, much as a receiver turns radio waves into sound waves. “I’ve got a cardboard box full of cassette tapes of sounds that I’ve collected over nearly 40 years,” he said. Gurnett’s tapes have inspired a 10-movement musical composition called “Sun Rings.” The Grammy-nominated Kronos Quartet will premiere “Rings” this month.