Anthropology Professor is Skeptical about LiDAR Technology's Hype
Arizona State University (ASU)
The energy sector appears ripe for the sort of disruption that has upended scores of traditional industries, although entrenched interests and incumbents are clinging to traditional sources and models.This insight came during a clean energy panel discussion at the University of Virginia Darden School of Business student-run Net Impact Week, where three executives on the front lines of the rapidly changing energy sector suggested the opportunities in their industry were wide open for those willing.
To address the national shortage in STEM (science-technology-engineering and math) career-oriented students, the FAU Brain Institute has received a $780,000 grant from the Stiles-Nicholson Foundation to launch an innovative program targeted at middle and high school students in Palm Beach County.
Quantum entanglement is a key feature of a quantum computer. Yet, how can we verify that a quantum computer indeed incorporates a large-scale entanglement? Using conventional methods is hard since they require a large number of repeated measurements. Aleksandra Dimić from the University of Belgrade and Borivoje Dakić from the Austrian Academy of Sciences and the University of Vienna have developed a novel method where in many cases even a single experimental run suffices to prove the presence of entanglement. Their surprising results will be published in the online open access journal npj Quantum Information of the Nature Publishing group.
In a recent demonstration project, physicists from Brookhaven National Laboratory and Berkeley Lab used the Cori supercomputer at the National Energy Research Scientific Computing Center to reconstruct data collected from a nuclear physics experiment, an advance that could dramatically reduce the time it takes to make detailed data available for scientific discoveries.
A researcher at the University of Kansas is part of a $20 million, five-year project funded by National Institute of Standards and Technology that enables engineers, computer scientists, economists, urban planners and sociologists to study how communities recover from disaster and become more resilient to future adversity.
Engineers at Rutgers University–New Brunswick and Oregon State University are developing a new method of processing nanomaterials that could lead to faster and cheaper manufacturing of flexible thin film devices – from touch screens to window coatings, according to a new study. The “intense pulsed light sintering” method uses high-energy light over an area nearly 7,000 times larger than a laser to fuse nanomaterials in seconds.
Researchers have successfully treated a cancerous tumor using a “nano-factory” – a synthetic cell that produces anti-cancer proteins within the tumor tissue. The synthetic cell could one day be an important part in the personalized medicine trend.
A couple of Clarkson University Professors helped to create a portion of the sled Chris Mazdzer rode to his silver-medal finish on Sunday.
Researchers build a robot that moves more like a cockroach.
Hackensack University Medical Center is one of four centers in the country participating in a clinical trial to evaluate whether the TSolution One System is a safe and effective alternative to traditional knee replacement using manual surgical instruments
By getting your next package delivered by drone, you could be saving energy, but only if companies deploy drones sensibly. New research by Lawrence Livermore National Laboratory, Carnegie Mellon University, SRI International and the University of Colorado at Boulder shows that drone-based delivery could reduce greenhouse gas emissions and energy use in the transportation sector.
Vanderbilt biologist Nicole Creanza takes an interdisciplinary approach to human evolution--both biological and cultural--as editor of special themed issue of Philosophical Transactions of the Royal Society B.
After arguably the worst year ever for cyberattacks and data breaches, Indiana University research suggests it may be time to create an independent cybersecurity agency board comparable in approach to the National Transportation Safety Board that investigates airplane crashes and train derailments.
University of Washington engineers have turned tissue paper – similar to toilet tissue – into a new kind of wearable sensor that can detect a pulse, a blink of an eye and other human movement. The sensor is light, flexible and inexpensive, with potential applications in health care, entertainment and robotics.
Searching for a power outlet may soon become a thing of the past. Instead, devices will receive electricity from a small metallic tab that, when attached to the body, is capable of generating electricity from bending a finger and other simple movements. That’s the idea behind a collaborative research project led by University at Buffalo and Institute of Semiconductors (IoP) at Chinese Academy of Science (CAS).
Darden Professors Raj Venkatesan and Kim Whitler’s research shows what goes wrong when companies try to use big data and how to better make analytics work. Venkatesan presented these insights at the Leadership in the Face of New Technology conference, co-hosted by Darden and the HWZ University of Applied Sciences in Business Administration Zurich.
Grover and GM colleagues Jian Gao, Venkatesh Gopalakrishnan, and Ramachandra Diwakar are using the Titan supercomputer at the Oak Ridge Leadership Computing Facility to improve combustion models for diesel passenger car engines with an ultimate goal of accelerating innovative engine designs while meeting strict emissions standards.
Through a first-of-its-kind partnership between its renowned business schools, the University of Virginia will begin offering a new master of science in business analytics (MSBA) degree in late summer 2018, pending approval from the State Council of Higher Education for Virginia.
In a new Johns Hopkins study of patient and graft survival trends for pediatric liver transplant recipients between 2002 and 2015, researchers found that outcomes for alternatives to whole liver transplantation (WLT), such as splitting a liver for two recipients or using a part of a liver from a living donor, have improved significantly.
DHS S&T's HV-X platform integrates forecast and planning data to provide emergency managers with decision support tools for use in advance of and during tropical weather.
Graphene is a remarkable material: light, strong, transparent and electrically conductive. It can also convert heat to electricity, and researchers have recently exploited this thermoelectric property to create a new kind of radiation detector. Classified as a bolometer, the new device has a fast response time and works over a wide range of temperatures. With a simple design and relatively low cost, this device could be scaled up, enabling a wide range of commercial applications.
The “internet of things,” which make everything from your toaster to your front door accessible online, has driven an explosion in data traffic and taken up huge amounts of bandwidth. However, a new range of frequencies in the terahertz region of the spectrum may soon be available for use. A paper in this week’s APL Photonics demonstrates the feasibility of using THz carrier waves for data transmission in diverse situations and environments.
Electrical and optical engineers in Australia have designed a novel platform that could tailor telecommunication and optical transmissions. They experimentally demonstrated their system using a new transmission wavelength with a higher bandwidth capacity than those currently used in wireless communication. Reported this week in APL Photonics, these experiments open up new horizons in communication and photonics technology.
Cornell University researchers have created a solar wildlife tag, an innovation that solves key challenges in bird-tracking devices: how to make them lightweight and long-lasting.
New solutions for cybersecurity, energy and medical research are in the hands of companies who can use them to create new products and services, thanks to efforts to transfer them from the lab to industry. The Department of Energy's Pacific Northwest National Laboratory received three awards for excellence in technology transfer from the Federal Laboratory Consortium.
In a paper published in the Clothing and Textiles Research Journal, Jessica Ridgway, an assistant professor of retail entrepreneurship in the Jim Moran School of Entrepreneurship, asserts that mood and body satisfaction can take major hits after viewing oneself represented as a 3-D avatar.
A new website will provide a vital link for Kentucky health care providers, court officials, families and individuals seeking options for substance abuse treatment and recovery. “Find Help Now KY” (www.findhelpnowky.org) will deliver real-time information about available space in substance use disorder treatment program, and guide users to the right type of treatment for their needs.
The biology teacher's pedagogical toolbox is evolving. Bright colors, replicating computer code and a digital petri dish bring evolution science to life for students.
Writing today (Feb. 5, 2018) in the journal Nature Materials, UW-Madison materials scientist Chang-Beom Eom and his collaborators provided evidence of a hole gas coexisting with two-dimensional electron gas.
A U.S. Food and Drug Administration (FDA) -funded program to speed safe and effective medical device technologies to market has chosen an ACR Data Science Institute™ (DSI) use case among its first demonstration projects.
A Missouri S&T student recently became one of the first members of the public to get an inside look at the cockpit of a new Boeing aircraft and to test its advanced training system.Katie Frogge of Lee’s Summit, Missouri, a sophomore majoring in aerospace engineering at Missouri S&T, was one of five students from universities and high schools in the St.
High exposure to radiofrequency radiation (RFR) in rodents resulted in tumors in tissues surrounding nerves in the hearts of male rats, but not female rats or any mice, according to draft studies from the National Toxicology Program (NTP). The exposure levels used in the studies were equal to and higher than the highest level permitted for local tissue exposure in cell phone emissions today. Cell phones typically emit lower levels of RFR than the maximum level allowed. NTP’s draft conclusions were released today as two technical reports, one for rat studies and one for mouse studies. NTP will hold an external expert review of its complete findings from these rodent studies March 26-28.
Researchers have developed a new, highly efficient coherent and robust semiconductor laser system: the topological insulator laser. The results of the study pave the way towards a novel class of active topological photonic devices that may be integrated with sensors, antennas and other photonic devices.
Some of what researchers believed to be chaotic electrical potentials in neurons are turning out the be surprisingly orderly and rhythmic.
Sandia National Laboratories recently designed and produced new radiation detection equipment for New START Treaty monitoring. New START is a treaty between the United States and Russia that, among other limits, reduces the deployed nuclear warheads on both sides to 1,550 by Feb. 5.
A pair of Argonne scientists uncover fresh insights about the structure of saltwater.
The Department of Energy (DOE) on Feb. 1 announced up to $3 million will be made available to U.S. manufacturers for public/private projects aimed at applying high performance computing to industry challenges for the advancement of energy innovation.
The National University of Singapore’s Faculty of Engineering has established seven new partnerships under its Hybrid-Integrated Flexible Electronic Systems (HiFES) programme to develop next-generation hybrid flexible electronics. These partnerships, valued at about S$4.9 million in total, involve cutting-edge research to develop technologies and devices for applications in areas such as consumer electronics, healthcare, defence and safety surveillance.
Columbia Engineering researchers have developed a prototype of a high-performance flexible lithium-ion battery that demonstratesconcurrentlyboth good flexibility and high energy density. The battery is shaped like the human spine and allows remarkable flexibility, high energy density, and stable voltage no matter how it is flexed or twisted. The device could help advance applications for wearable electronics. (Advanced Materials.)
The study’s findings will help train artificial intelligence to diagnose diseases
Using a simple analytical framework for random events within a predictable system, computational biologists have found a new way to accurately model certain forms of gene expression, including the body's 24-hour internal clock. This new approach of applying a piecewise deterministic Markov process (PDMP) to gene expression could inform possible design principles for synthetic biologists
With job openings exceeding qualified applicants by a ratio of 10:1, Kansas employers have an urgent, unmet demand for employees with computer programming skills. In response, the Wichita State University College of Engineering is working to introduce children to coding early.
Using this visual, user-centered platform, USCG decision makers could spot the stations most capable of responding to the disaster and helped prioritize the restoration of stations in need of repair.
Rutgers engineers have invented a “4D printing” method for a smart gel that could lead to the development of “living” structures in human organs and tissues, soft robots and targeted drug delivery.
Scientists at Queen’s University Belfast have been working as part of an international team to develop a new process, which could lead to a new generation of high-definition (HD), paving the way for brighter, lighter and more energy efficient TVs and smart devices.