During the 2016 Zika outbreak, news exposure appears to have had a far bigger impact than local disease risk on the number of times people visited Zika-related Wikipedia pages in the U.S.
A coronavirus app coupled with machine intelligence will soon enable an individual to get an at-home risk assessment based on how they feel and where they've been in about a minute, and direct those deemed at risk to the nearest definitive testing facility, investigators say.
DOE laboratories are collaborating on a new high-resolution Earth systems model to predict climate trends into the next century. The model will provide the scientific basis by which to mitigate the effects of extreme climate on energy and other essential services.
States across the nation are increasing funding and focus on expanding high-quality education opportunities for young children. However, according to new research from Michigan State University, the U.S. is overlooking an important piece of the preschool puzzle: teacher certification.
New research from the University of Washington finds that a natural aptitude for learning languages is a stronger predictor of learning to program than basic math knowledge.
NIGMS grantee and presidential award recipient Sohini Ramachandran, Ph.D., is challenging our understanding of genetic variation among human populations. She discusses her research on how the genetic composition of traits and diseases varies among populations, the value of statistical and computational work in human genetics, and what this all means for patient treatment.
With hybrid cars and plug-in hybrids, cold starts occur more frequently when the internal combustion engine stops and the electric motor pushes the car through town. How quickly can the catalytic converter be preheated so that it can still clean exhaust gases well? What would be the method of choice? A team of Empa researchers is investigating.
On Monday, January 13, engineering students from the University of Toledo’s Roy and Marcia Armes Engineering Leaderships Institute (ELI) visited Argonne National Laboratory to prepare themselves for the leadership challenges facing engineers.
The Clare Boothe Luce (CBL) Program has awarded $192,000 to support undergraduate research at Olin College. The award, which will be spread over three years, will go toward establishing a CBL Research Scholars Program under which up to 24 students will have the opportunity to do paid research in the fields of science, engineering or mathematics over the summer months.
“Big data” is getting a big boost in the University of Illinois at Chicago College of Liberal Arts and Sciences through a new professorship endowed by TransUnion, a leading global information and insights company.
A significant redesign of two foundational mathematics courses at the University of Georgia has led to remarkable gains in student success, including an increase from 65% to 85% of students who pass precalculus.
Professor James “Mac” Hyman's goal is to help the public health community better understand and predict the spread of the COVID-19 and to quantify the effectiveness of various efforts to stop it.
Michael Dorff (Brigham Young University) and George C. Shields (Furman University) are the latest Fellows of the Council on Undergraduate Research to be honored for their leadership and service as role models for those involved in undergraduate research, scholarship, and creative activities.
As the government has announced proposals to ban the sale of petrol, diesel and hybrid cars by 2035 the race to electrify the motor industry is on, and motorbikes aren’t to be overlooked.
As the adage goes, “Choose a job you love, and you'll never work a day in your life." The CSU is lucky to be replete with faculty and staff across its 23 campuses who've found their true calling. And for those who work with them—whether students or colleagues—that dedication to education is infectious.
Read on to hear how faculty and staff at nine CSU campuses fell head over heels for their discipline.
Cryogenic electron microscopy can in principle make out individual atoms in a molecule, but distinguishing the crisp from the blurry parts of an image can be a challenge. A new mathematical method may help.
Irvine, Calif., Feb. 10, 2020 — A $5 million gift from UCI Foundation trustee Stacey Nicholas will endow and rename a program serving both The Henry Samueli School of Engineering and the Donald Bren School of Information & Computer Sciences – the UCI Office of Access & Inclusion – that supports the recruitment, retention and graduation of students from historically excluded populations who are underrepresented in science, technology, engineering and math.
Thanks largely to advances in computing, researchers in computational biology and data science are harnessing the power of the masses and making discoveries that provide valuable insights into human health.
A new deep learning model developed by researchers at the University of Eastern Finland can identify sleep stages as accurately as an experienced physician.
Most medicines work by binding to and blocking the effect of disease-causing molecules. Now to accelerate the identification of potential new medicines, bioengineers have created a computer model that mimics the way molecules bind.
Authors caution that given the lack of a robust and detailed timeline of records of suspected, probable, and confirmed cases and close contacts, the true size of the epidemic and its pandemic potential remains unclear.
Everything really is better in moderation: Research shows that once a person hits the satiation point, consuming more of something means enjoying it less. A new study by Professor Manel Baucells offers a model charting where that point is and what to do about it — with implications for business as well as optimizing your own personal experiences.
Scientists report on a mathematical model for the formation of amyloid fibrils. The model sheds light on how the aggregation process can occur in a catalytic manner, something that has not been previously well understood.
A model invented by researchers at MIT and Qatar Computing Research Institute (QCRI) that uses satellite imagery to tag road features in digital maps could help improve GPS navigation.
Dr. Maryam Zahabi is leading a team of researchers in an effort to improve prosthetics for upper limb amputees. Her team is looking at the mental demand placed on individuals using prosthetics and how new prosthetic interfaces can help reduce this demand.
New research shows that, millions of times each day, investors in the U.S. stock market see different prices at the same moment—and that these differing prices cost investors at least $2 billion dollars each year.
Xiaofeng Liu, associate professor of civil engineering, received a $297,791 NSF grant to study how water and sediment move around nature-based solutions for river restoration.
Neutron spectroscopy is an important tool for studying magnetic and thermoelectric properties in materials. But often the resolution, or the ability of the instrument to see fine details, is too coarse to clearly observe features identifying novel phenomena in new advanced materials. To solve this problem, researchers at Oak Ridge National Laboratory, developed a new super-resolution software, called SRINS, that makes it easier for scientists to better understand materials’ dynamical properties using neutron spectroscopy.
The University of Texas at El Paso’s Electrical and Computer Engineering Department was awarded $1 million from the National Science Foundation to help low-income, academically talented undergraduate students in engineering successfully advance to graduate studies.
A first-of-its-kind study on molecular interactions by biomedical engineers in the University of Minnesota’s College of Science and Engineering will make it easier and more efficient for scientists to develop new medicines and other therapies for diseases such as cancer, HIV, and autoimmune diseases. The study resulted in a mathematical framework that researchers plan to use to develop a web-based app that other researchers can use to speed the development of new therapies for diseases.
A nationwide alliance of national labs, universities, and industry launched today to advance the frontiers of quantum computing systems designed to solve urgent scientific challenges and maintain U.S. leadership in next-generation information technology. The Quantum Information Edge strategic alliance is led by Lawrence Berkeley National Laboratory (Berkeley Lab) and Sandia National Laboratories.
Traditional explanations for why some animals are monogamous and others are promiscuous or polygamous have focused on ecological factors. A new theory focuses instead on social interactions driven by genetically determined behaviors.
In a series of articles, including one published today in PLOS ONE, researchers from Rensselaer Polytechnic Institute explain how they have developed and demonstrated a series of algorithms that can analyze biometric information recorded by a smart device and then recommend the best combination of sleep and light to help a person readjust their circadian rhythm.
Youssef M. Marzouk is an associate professor of Aeronautics and Astronautics at the Massachusetts Institute of Technology (MIT) and co-director of the MIT Center for Computational Engineering. He is also a core member of MIT's Statistics and Data Science Center and Director of MIT’s Aerospace Computational Design Laboratory.
An emerging technology involving tiny particles that absorb light and turn it into localized heat sources shows great promise in several fields, including medicine. This heating must be carefully controlled however, since living tissue is delicate, and the ability to monitor temperature increases is crucial. In APL Photonics, scientists report a method to measure these temperatures using terahertz radiation. The study involved suspensions of gold nanorods in water in small cuvettes, which were illuminated by a laser focused on a small spot within the cuvette.
University of California San Diego School of Medicine and Moores Cancer Center researchers developed a math equation to predict and detect liver cancer and identified when healthy cells become cancerous.
Once again, another year has flown by. One day you're committing to New Year's resolutions and in the blink of an eye, you're wrapping holiday gifts. In the midst of bustling end-of-year festivities, we're taking a little time to reflect on all that transpired in 2019. Join us as we travel down memory lane to revisit some of the CSU's most memorable achievements and milestones.
With the help of a three-year, $500,000 grant from the National Science Foundation, a research team from Wayne State University will comprehensively evaluate the characteristics of cyberattacks for processes involving chemical processes of different types, and will develop fundamental advances in control theory and algorithms for enhancing cybersecurity of control systems for these processes through control designs integrated with other frameworks such as detection algorithms.
A multi-disciplinary team of University of Illinois at Chicago researchers received a three-year, $1.5 million grant from the National Science Foundation to form a new data science institute.
The Rwandan genocide forced Kwizera Imani and his family to spend nine years in a refugee camp. There, Imani fell in love with school, math in particular. Imani is now a senior in aerospace engineering at Iowa State University, and he’s graduating this weekend with five internships under his belt and a new adventure: a job at Collins Aerospace.
What if engineers could design a better jet with mathematical equations that drastically reduce the need for experimental testing? Or what if weather prediction models could predict details in the movement of heat from the ocean into a hurricane?
Researchers from the Austrian Academy of Sciences, the University of Vienna and the University of Geneva, have proposed a new interpretation of classical physics without real numbers. This new study challenges the traditional view of classical physics as deterministic.In classical physics it is usually assumed that if we know where an object is and its velocity, we can exactly predict where it will go.
Music is an art, but it is also a science involving vibrating reeds and strings, sound waves and resonances. The study of acoustics can help scientists produce beautiful music even with musical instruments fashioned with high-tech methods, such as 3D printing. Researchers studied the sound quality of a 3D-printed ukulele and compared it to a standard wooden instrument, and will present the group’s results at the 178th ASA Meeting.