The Department of Energy’s Oak Ridge National Laboratory has licensed a novel method to 3D print components used in neutron instruments for scientific research to the ExOne Company, a leading maker of binder jet 3D printing technology.
Short of cameras, there are few tools at the disposal of health care providers or loved ones to remotely monitor patient safety within hospitals and assisted living care facilities. A new system of infrared sensors, developed at Rensselaer Polytechnic Institute, is able to provide real-time data while also maintaining privacy.
During more than 90 approaches to Zurich Airport conducted under the leadership of the Swiss SkyLab Foundation, researchers from Empa and the German Aerospace Center (DLR) tested an assistance system that supports pilots via a display during quiet and, at the same time, fuel-efficient approaches. The results show a measurable reduction in noise emissions and fuel consumption. Now the system, developed by DLR, is to be made ready for production.
Researchers with the DHS S&T developed a do-it-yourself solution to decontaminate personal protective equipment (PPE) using a programmable multicooker.
Electronic ankle monitors – increasingly used as an alternative to incarceration – are bulky and difficult to conceal, displaying their wearers’ potential involvement with the justice system for all to see, according to a new article by a Cornell researcher.
Computer scientists, software developers and system administrators are coming together under one roof in the newly established Computational Sciences and Technology Division at the Department of Energy’s Thomas Jefferson National Accelerator Facility. Amber Boehnlein, Jefferson Lab’s chief information officer, has been promoted to associate director for computational sciences and technology, heading up the new division.
At a glance:
• Scientists develop AI-based tool to predict adverse drug events
• Such events are responsible for some 2 million U.S. hospitalizations per year
• The free, open-source system could enable safer drug design, optimize drug safety
In groundbreaking new research, mechanical engineers and computer scientists at the University of Minnesota have developed a 3D printing technique that uses motion capture technology, similar to that used in Hollywood movies, to print electronic sensors directly on organs that are expanding and contracting. The new 3D printing technique could have future applications in diagnosing and monitoring the lungs of patients with COVID-19.
Researchers from the University of Bath have developed motion capture technology that enables you to digitise your dog without a motion capture suit and using only one camera.
The Lighting Research Center (LRC) at Rensselaer Polytechnic Institute seeks a better understanding of the benefits and limitations involved in the potential use of ultraviolet lighting in battling the COVID-19 virus through a new survey aimed at decision makers who use, or are considering implementing, ultraviolet technologies for use in the disinfection of public spaces.
The University of Arkansas at Little Rock is introducing a new four-year degree program in cybersecurity in the fall 2021 semester to help meet the rising demand for cybersecurity professionals. The Bachelor of Science in cybersecurity will prepare students for challenging and rewarding careers dedicated to protecting the privacy of individuals, the security of society’s infrastructure, and national security.
For the next several months, visitors to the Atlanta Botanical Garden will be able to observe the testing of a new high-tech tool in the battle to save some of the world’s most endangered species. SlothBot, a slow-moving and energy-efficient robot that can linger in the trees to monitor animals, plants, and the environment below, will be tested near the Garden’s popular Canopy Walk.
A new artificial intelligence system allowing shoppers on Facebook to identify characteristics of items in uploaded photographs is based on Cornell University computer vision research into fine-grained visual recognition.
To help individuals take greater control of their personal information, a team of Cornell researchers has developed and tested a platform, Ancile, that allows users to set restrictions on what kind of digital data they’ll release, and to whom.
The Sherlock Division of the San Diego Supercomputer Center at the University of California San Diego has expanded its multi-Cloud solution, Sherlock Cloud, to include the Google Cloud Platform (GCP).
The Jefferson Project at Lake George is making real-time water quality and weather data from its unprecedented scientific monitoring and research program available directly to the public through a new digital Data Dashboard at jeffersonproject.live.
By chasing cockroaches through an obstacle course and studying their movements, the Johns Hopkins engineers that brought you the cockroach robot and the snake robot discovered that animals’ movement transitions corresponded to overcoming potential energy barriers and that they can jitter around to traverse obstacles in complex terrain.
In one of the largest educational field experiments ever conducted, a team co-led by a Cornell researcher found that promising interventions to help students complete online courses were not effective on a massive scale – suggesting that targeted solutions are needed to help students in different circumstances or locations.
With an eye on adapting solutions to new applications, DHS S&T expanded its SVIP, by offering its first-ever Phase 5 award to Tamr Government Solutions, based in Cambridge, Massachusetts.
A device capable of automatically disinfecting common surfaces, such as doorknobs, light switches, and elevator buttons, could be a vital tool in virus and disease mitigation during and after the COVID-19 pandemic.
ICPC University Commons online activities will kick start on 27 June 2020 with the ICPC 2020 World Finals Moscow: Day Zero.
Due to unprecedented travel challenges, ICPC 2020 Moscow hosted by the Moscow Institute of Physics and Technology (MIPT) is scheduled for 19-24 June 2021.
The Materials Research Society (MRS) and The Minerals, Metals & Materials Society (TMS) have selected Megan Malara, The Ohio State University, as the 2020-2021 MRS/TMS Congressional Science and Engineering Fellow. Malara will serve a one-year term working as a special legislative assistant on the staff of a member of Congress or congressional committee.
After 20 years at UC San Diego, Larry Smarr will step down as the director of the California Institute for Telecommunications and Information Technology (Calit2) and retire as a distinguished professor from the Jacobs School of Engineering’s Computer Science and Engineering Department at the end of this month.
DHS S&T added a new calculator to their online tools today to estimate the natural decay of SARS-CoV-2 (the virus that causes COVID-19) in the air under various environmental conditions.
Irvine, Calif., June 12, 2020 — The National Science Foundation has awarded $10 million to support a new research center devoted to personal data privacy in an increasingly networked and instrumented world. The center will be hosted and led by the University of California, Irvine and is in collaboration with Northeastern University, the University of Iowa, the University of Southern California and Spain’s IMDEA Networks Institute.
The FAA has extended funding for the Maryland Smith-supported consortium that has developed decision support tools, operational and system concepts, and policymaking tools that benefit the FAA, the airline industry and the flying public.
During metal processing in the 3D laser printer, temperatures of more than 2,500 degrees Celsius are reached within milliseconds, causing some components of the alloys to evaporate. While widely considered a problem inherent to the process, Empa researchers spotted an opportunity – and are now using the effect to create new alloys with novel properties and embed them in 3D-printed metallic work pieces with micrometer precision.
Researchers from Columbia Engineering, Georgia Institute of Technology, and Graz University of Technology propose a new computational system to expand the understanding of the brain at an intermediate level, between neurons and cognitive phenomena such as language. They have developed a brain architecture based on neuronal assemblies, and they demonstrate its use in the syntactic processing in the production of language; their model is consistent with recent experimental results.
Dashcams are vital for helping police investigate car incidents, however the way the footage is submitted to police, managed and processed can cause problems. A researcher at WMG, University of Warwick has assessed seven different types of dashcams’ SD storage systems to see how they help and hinder digital forensics.
New innovative circuit technique can transfer digital bits at five times lower power consumption than existing chips, prolonging battery life in AI-enabled systems
A doctoral student at the Technion - Israel Institute of Technology has invented a soft polymer that is elastic and waterproof, and that knows how to heal itself in the event of an “injury,” such as a scratch, cut, or twist.
Understanding the source and network of signals as the brain functions is a central goal of brain research. Now, Carnegie Mellon engineers have created a system for high-density EEG imaging of the origin and path of normal and abnormal brain signals.
S&T’s patent-pending process for foot-and-mouth disease vaccine creation is a global game-changer for one of the most destructive livestock diseases on the planet.
Learn how NIH’s new Rapid Acceleration of Diagnostics initiative, or RADx Tech, has mobilized engineers and innovators across the country to bring accurate, rapid, and easy-to-use COVID diagnostic tests to all Americans.
The coronavirus has driven us indoors and separated us from coworkers, friends and loved ones. That’s nothing really new for Sara Loftus, a West Virginia University geography doctoral student who is studying how to build an online community.
The coronavirus has driven us indoors and separated us from coworkers, friends and loved ones. That’s nothing really new for Sara Loftus, a geography doctoral student who is studying how to build an online community. See what motivated her to pursue a career in digital caregiving.
Studying bird feathers at the Advanced Photon Source has given scientists a picture of the mechanism that holds those feathers together when birds fly.
Participants receive free access to Stanford’s online entrepreneurial toolkit to guide them through the process of creating and evaluating projects designed to drive recovery
Researchers at North Carolina State University have constructed a paper-based device as a model of wearables that can collect, transport and analyze sweat in next-generation wearable technology. Using a process known as capillary action, akin to water transport in plants, the device uses evaporation to wick fluid that mimics the features of human sweat to a sensor for up to 10 days or longer. They discuss their work in the journal Biomicrofluidics.
Discussed in APL Bioengineering, researchers created a high-fidelity respiratory simulator that accurately represents the interplay between the abdomen, diaphragm, lungs and pleural space, the fluid-filled membrane surrounding the thorax and lungs. The model, using swine lungs, soft robotic materials and artificial muscles, allows precise tuning of pressure in each part of the system, so specific disease conditions can be tested. It also proved extremely useful for testing ventilator-only respiration by removing the elastomeric diaphragm.
An unexpected property of nanometer-scale antimony crystals — the spontaneous formation of hollow structures — could help give the next generation of lithium ion batteries higher energy density without reducing battery lifetime. The reversibly hollowing structures could allow lithium ion batteries to hold more energy and therefore provide more power between charges.
Scientists found a new way to build silicon nanodisks that allow the scientists to guide light along the outside of these tiny structures in a way they have never been able to before. Unlike in previous structures, scientists were able to send light in a zig-zag pattern rather than a straight line. Improving the ability to move the light in multiple dimensions will make it easier to integrate these nanostructures into technologies in the future.
Researchers demonstrated new ways to use electron microscopy to study liquids at high resolution. They used this technique to examine how nuclei in liquids and molecules vibrate at multiple length scales. This work can lead to new ways for scientists to describe liquids, the interfaces between fluids, and materials labeled with isotopes.
This new agreement will dramatically improve and reduce the computational expense of fluid dynamics models. Both partners aim to improve the design and durability of engine components.
New smart parking software developed by Cornell University researchers, which matches drivers with parking garage spots based on travel time and other factors, could reduce congestion and emissions while saving drivers the time of circling to look for available spots.
A team led by Oak Ridge National Laboratory synthesized a "nanobrush" structure with high surface area and discovered how its unique architecture drives ions across interfaces to transport energy or information.