A material composed of two one-atom-thick layers of carbon has grabbed the attention of physicists worldwide for its intriguing — and potentially exploitable — conductive properties.
Polycraft World, a modification of the video game Minecraft, was developed by University of Texas at Dallas researchers to teach chemistry and engineering. Now the game that allows players to build virtual worlds is serving as the foundation for federal research to develop smarter artificial intelligence (AI) technology. UT Dallas researchers received a grant from the Defense Advanced Research Projects Agency (DARPA) to use Polycraft World to simulate dynamic and unexpected events that can be used to train AI systems — computer systems that emulate human cognition — to adapt to the unpredictable. The simulated scenarios could include changing weather or unfamiliar terrain. In response to the COVID-19 pandemic, researchers have added the threat of an infectious disease outbreak.
Geoscientists at The University of Texas at Dallas recently used supercomputers to analyze massive amounts of earthquake data to generate high-resolution, 3D images of the dynamic geological processes taking place far below the Earth’s surface.
New research from The University of Texas at Dallas suggests food deserts might be more prevalent in the U.S. than the numbers reported in government estimates.
University of Texas at Dallas researchers have designed and 3D-printed a critical ventilator part and are working to manufacture testing swabs and personal protective equipment (PPE) in a campus lab mobilized to address potential supply shortages due to the COVID-19 pandemic.
University of Texas System researchers have pinpointed a molecule that the tuberculosis bacterium manufactures to induce the coughing that spreads the disease by triggering a pain-receptor response. Their findings illustrate that the disease's spread might be prevented by halting production of sulfolipid-1.
Dr. Kang Zhang uses artificial intelligence (AI) to teach computers to create illustrations in the style of the famous masters: Jackson Pollock and his paint splatters or Joan Miró and his curved shapes and sharp lines. The process involves feeding computers examples of colors, abstract shapes and layouts so they can learn to produce their own versions of masterpieces.
Instead of blocking hackers, a new cybersecurity defense approach developed by University of Texas at Dallas computer scientists actually welcomes them. The method, called DEEP-Dig (DEcEPtion DIGging), ushers intruders into a decoy site so the computer can learn from hackers’ tactics. The information is then used to train the computer to recognize and stop future attacks.
University of Texas at Dallas researchers are breathing new life into an old MRI contrast agent by attaching it to a plant virus and wrapping it in a protective chemical cage. The novel strategy is aimed at developing a completely organic and biodegradable contrast agent.
Results suggest social interaction success for autistic adults revolves around partner compatibility, not just participant skill set. “If autistic people were inherently poor, you’d expect two autistic people to struggle more than an autistic and non-autistic person. That’s not what we found.”
The wind over deep-sea waters offers the potential to become one of the country’s largest renewable energy sources. University of Texas at Dallas researcher Dr. Todd Griffith has spent years working on an offshore turbine design that can convert those deep-ocean winds into electricity. Recently, Griffith received a $3.3 million grant from the U.S. Department of Energy to take his technology to the next level. The Advanced Research Projects Agency-Energy (ARPA-E) award provides support for his team to design and build a prototype for a floating offshore wind turbine. The new grant was part of $26 million in funding from ARPA-E for 13 projects to accelerate floating offshore wind turbine technologies through the Aerodynamic Turbines, Lighter and Afloat, with Nautical Technologies and Integrated Servo-Control (ATLANTIS) program.
University of Texas at Dallas researchers have developed a generator prototype that uses liquid metal to convert waste heat from sources such as electric cars or data centers into clean electricity.
An international team led by researchers at The University of Texas at Dallas and Nankai University in China has discovered a new technology for refrigeration that is based on twisting and untwisting fibers.
University of Texas at Dallas researchers have demonstrated that imaging technology used to map the universe shows promise for more accurately and quickly identifying cancer cells in the operating room.
A new study from a UT Dallas assistant professor affiliated with the Infant Brain Imaging Study network that included infants later diagnosed with autism suggests that all children benefit from exposure to rich speech environments from their caregivers.
Scientists at The University of Texas at Dallas have found evidence suggesting that resistance to the “hunger hormone” ghrelin in the brain is linked to the cognitive impairments and memory loss associated with Alzheimer’s disease (AD).
A University of Texas at Dallas physicist has teamed with Texas Instruments to design a better way for electronics to convert waste heat into reusable energy. Silicon in the form of nanoblades can harvest thermoelectric energy at a greatly increased rate while remaining mass-producible when combined with integrated circuits.
Dr. Simon Dai, assistant professor of mechanical engineering in the Erik Jonsson School of Engineering and Computer Science at The University of Texas at Dallas, has been awarded a three-year grant to advance technology he has developed to harvest clean water from the air without using external energy.
It’s well known that keeping blood glucose levels in check can help individuals avoid or manage diabetes, but new research led by biologists at The University of Texas at Dallas suggests that restricting blood glucose levels might also keep certain cancers at bay.
A materials scientist from the University of Texas at Dallas has offered a solution to the fast-approaching physical minimum for transistor size: a multi-value logic transistor based on zinc oxide, capable of two stable intermediate states between 0 and 1.
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