UWF Center for Cybersecurity and the UWF Aylstock, Witkin, Kreis & Overholtz Center for Leadership, in collaboration with FIU Jack D. Gordon Institute for Public Policy, will host free cybersecurity leadership and strategy training sessions for Florida public sector executives.
A new field promises to usher in a new era of using machine learning and computer vision to tackle small and large-scale questions about the biology of organisms around the globe.
The Korea Research Institute of Standards and Science (KRISS) has developed a hybrid nano-microscope capable of simultaneously measuring various nano-material properties.
The Universe is almost inconceivably vast. So is the amount of data astronomers collect when they study it. This is a challenging process for the scientists and engineers at the U.S. National Science Foundation’s National Radio Astronomy Observatory (NRAO). But what if they could do it over 300 times faster?
Scientists from the National University of Singapore (NUS) have developed a novel triple-junction perovskite/Si tandem solar cell that can achieve a certified world-record power conversion efficiency of 27.1 per cent across a solar energy absorption area of 1 sq cm, representing the best-performing triple-junction perovskite/Si tandem solar cell thus far. To achieve this, the team engineered a new cyanate-integrated perovskite solar cell that is stable and energy efficient.
A new partnership between McMaster University and Celesta Capital will cultivate the next generation of deep tech innovations at McMaster and within the broader Canadian research and startup ecosystem.
A new study led by URI scientists Kathleen Melanson and Theodore Walls aims to shed light on real-world eating behaviors, using AI-enabled wearable technology. In collaboration with researchers at the University of Texas and funded by the National Institutes of Health, the team will develop a system to detect detailed information on eating motions.
Early in Hertz Fellow Alex Siegenfeld’s PhD program, he found himself unmotivated by his research and knew something had to change. His turning point overlapped with the 2016 Hertz Summer Workshop, where he discussed his concerns with other fellows.
In this new video, Eysenbach shares the origins of the Journal of Medical Internet Research and the driving forces that led him to establish an open access digital health journal. His passion for publishing, coupled with a background in medicine and information and computer science, fueled his vision to leverage the internet's transformative power in making medical information accessible to both professionals and consumers.
Scientists have unveiled a groundbreaking sensor that can wirelessly detect chemical warfare agents, marking a significant leap in public safety technology. This innovative device, capable of identifying substances like dimethyl methylphosphonate (DMMP), offers a new level of efficiency and reliability in monitoring and responding to chemical threats, without the need for direct power sources or physical connections.
Researchers at the Beckman Institute developed an artificial intelligence model that can accurately identify tumors and diseases in medical images. The tool draws a map to explain each diagnosis, helping doctors follow its line of reasoning, check for accuracy, and explain the results to patients.
Digital Science is delighted to announce the launch of AI-driven summarization in Dimensions, a new feature to support the user in their discovery process for publications, grants, patents and clinical trials.
Web3, symbolizing the internet's next evolution, embodies a decentralized and user-empowered framework built upon blockchain technology. Researchers has offered an extensive overview of Web3 technology, encompassing its infrastructure, applications, and popularity. This exploration into the decentralized web underscores significant insights into the categorization of Web3 projects and their reception in the digital domain.
Fengqui "Frank" Li is a computational developer at Oak Ridge National Laboratory who uses his background as an architect to expand the landscape of design for his research into building energy modeling and beyond.
Cameras similar to those already on newer model cars, combined with facial recognition tools, could read the "tells" of impairment in the face and upper body of a driver, University of Michigan engineers have shown.
From televisions to X-ray machines, many modern technologies are enabled by electrons that have been juiced up by a particle accelerator. Now, Jefferson Lab has teamed up with General Atomics and other partners to unlock even more applications. The team has designed, built and successfully tested a prototype of a key component of particle accelerators that could enable novel industrial applications of accelerators.
A University of California, Irvine-led research team has demonstrated the potentially hazardous vulnerabilities associated with the technology called LiDAR, or Light Detection and Ranging, many autonomous vehicles use to navigate streets, roads and highways. Computer scientists and electrical engineers at the UCI and Japan’s Keio University have shown how to use lasers to fool LiDAR into “seeing” objects that are not present and missing those that are – deficiencies that can cause unwarranted and unsafe braking or collisions.
The next generation of programmable quantum devices will require processors built around superior qubits. Researchers developed a blueprint for a novel quantum information processor based on fluxonium qubits. These fluxonium qubits outperform transmons, the most widely used superconducting qubits. The researchers also made practical suggestions on how to adapt and build the cutting-edge hardware for superconducting devices.
Lawrence Livermore National Laboratory's (LLNL) popular lecture series, “Science on Saturday,” will continue its programming into March at the Grand Theatre Center for the Arts in Tracy.
Dr. Jung Unho's research team at the Hydrogen Research Department of the Korea Institute of Energy Research (KIER) has developed Korea's first clean hydrogen production technology.
In a groundbreaking medical procedure, researchers have utilized 5G communication technology to perform the world's first robot-assisted radical distal gastrectomy remotely without intraoperative or postoperative complications.
The work will help researchers tune surface properties of perovskites, a promising alternative and supplement to silicon, for more efficient photovoltaics.
Better prevention of Type II diabetes could save both lives and money. The U.S. spends over $730 billion a year — nearly a third of all health care spending — on treating preventable diseases like diabetes.
Koning Health, a pioneering medical imaging company, is thrilled to announce that it has received regulatory clearance from the Federal Authority for Nuclear Regulation (FANR) in the United Arab Emirates (UAE), marking a significant milestone in the company's expansion and its commitment to global health innovation.
A collaborative team of researchers led by the McKelvey School of Engineering at Washington University in St. Louis is working toward that goal by developing an energy storage system that would have a much higher energy density than existing systems.
Researchers at the University of Illinois Urbana-Champaign have shown for the first time that expensive aberration-corrected microscopes are no longer required to achieve record-breaking microscopic resolution.
Dissecting doorbells, exploring music, mastering retail software, love of the arts and old-fashioned hard work were early paths that led five Sandia National Laboratories engineers to their callings and recently earned them national Black Engineer of the Year Awards.
The lungs are one of the most difficult organs for physicians to navigate with a conventional bronchoscope. To overcome these limitations, a team of NIH-funded researchers built a compact robotic system that can autonomously steer a flexible needle around these anatomical obstacles within the lungs of live animals.
Chulalongkorn University’s faculty members, researchers, and students were awarded in 4 categories: 4 National Outstanding Researcher Awards, 9 Research Awards, 1 Thesis Award, and 9 Invention Awards at the “Thailand Inventors’ Day 2024”.
Dr Rob Gray (Associate Professor in Human Systems Engineering at Arizona State University) talks about coaching in sport as well as skill acquisition in baseball and the future of virtual reality in sport
No one could blame Carnegie Mellon University students Akhil Padmanabha and Janavi Gupta if they were a bit anxious this past August as they traveled to the Bay Area home of Henry and Jane Evans.
Dartmouth researchers report they have developed the first smartphone application that uses artificial intelligence paired with facial-image processing software to reliably detect the onset of depression before the user even knows something is wrong.
Six Tufts faculty members have been named to the 2024 class of senior members of the National Academy of Inventors (NAI). With this recognition, the six are among a total of 124 highly accomplished emerging academic inventors, as identified by NAI’s 60 member institutions.
The Technology Infrastructure for Data Exploration (TIDE) project at SDSU will give CSU researchers access to new high-performance data processing capabilities.
A new computer platform called TCL 3.0 represents a breakthrough in how scientists measure and monitor changes in tiger habitat and provides a framework for monitoring other wildlife species across the globe.
In January, Sandia National Laboratories and The University of New Mexico created the Quantum New Mexico Institute, a cooperatively run research center headquartered at the university.
Blockchain's inherent transparency, while beneficial for validation and trust, poses significant privacy concerns. Traditional transactions on public blockchains are permanently visible, compromising user privacy. This visibility has been a double-edged sword, providing transparency but at the cost of personal data exposure. A new protocol called Privacy Pools offers a potential solution to the seemingly contradictory goals of blockchain privacy and regulatory compliance.
The Korea Institute of Civil Engineering and Building Technology (KICT) successfully implemented an electrostatic environment that simulates the Moon's surface conditions, not in space but on Earth. The researchers also assessed its performance and effectiveness.
While the rise of artificial intelligence is proving to be a contentious issue, new research from Edith Cowan University (ECU) has found that the use of social robots in a commercial setting would likely be met with less resistance.
In response to the rapidly evolving landscape of data collection and analysis driven by advances in artificial intelligence, the U.S. National Science Foundation (NSF) and the U.S. Department of Energy (DOE) have established a Research Coordination Network (RCN) dedicated to advancing privacy research and the development, deployment and scaling of privacy enhancing technologies (PETs). Fulfilling a mandate from the "Executive Order on the Safe, Secure, and Trustworthy Development and Use of Artificial Intelligence," the initiative advances the recommendations in the National Strategy to Advance Privacy-Preserving Data Sharing and Analytics to move towards a data ecosystem where the beneficial power of data can be unlocked while protecting privacy.
Niobium has long been considered an underperformer in superconducting qubits. Scientists supported by Q-NEXT, a US DOE quantum center led by Argonne, have now engineered a high-quality niobium-based qubit, taking advantage of niobium’s superior qualities.
The human brain's adaptability to internal and external changes, known as neural plasticity, forms the foundation for understanding cognitive functions like memory and learning, as well as various neurological disorders.