Photonic neuromorphic architecture for tens-of-task lifelong learning
Chinese Academy of SciencesEndowed with the superior computing efficiency, optical neural networks (ONNs) have shown great potential in complex visual processing.
Endowed with the superior computing efficiency, optical neural networks (ONNs) have shown great potential in complex visual processing.
The next-generation ShAPE machine has arrived at PNNL, where it will help prove the mettle of the ShAPE extrusion technique. ShAPE 2 is designed to allow researchers to produce larger, more complex extrusions.
As early adopters of innovative robotic technology, Hackensack Meridian Health is selected as one of only 14 hospitals in the world to launch the da Vinci 5 surgical robot
A research team has crafted an innovative machine learning model that delves into the intricate dynamics between service attributes and customer satisfaction.
As the U.S. electrifies transportation, its critical to give underserved communities a voice in the planning process. Argonne highlights projects focusing on equity in e-mobility projects.
Vee Technologies' extensive suite of healthcare business solutions is now rebranded as Vee Healthtek to emphasize its excellence in blending healthcare professional services and technology.
eXeX, a leader in artificial intelligence enhanced surgical logistics software, has achieved a world first by successfully utilizing the Apple Vision Pro in organizing and managing a Reverse Total Shoulder Arthroplasty.
KITECH developed the coupled non-thermal plasma (NTP) and wet scrubber (WS) system, efficiently treating gases without ozone production and operating with reduced power consumption.
Optical neural networks (ONNs) have drawn much attention in recent years due to their high bandwidth and low heat generation. In order to further enhance the computational power of ONNs, scientists in China introduce optical correlation to ONNs and propose a new type of optical convolutional neural network which can show “quantum speedup”.
Moffitt Cancer Center announced today a collaboration with NVIDIA, Oracle and Deloitte* on an initiative aimed at revolutionizing cancer care delivery through advanced artificial intelligence and machine learning technologies.
The endeavor to create a quantum light source endowed with inherent topological robustness is gaining heightened significance in the realm of quantum photonics. In pursuit of this objective, we demonstrate the deterministic coupling of a single InAs quantum dot to a topological second-order corner state.
Scientists developed a new imaging device that enables high-resolution brain imaging in freely moving mice. The featherweight probe, tipping the scale at a mere 4.5 grams, is capable of continuously monitoring cerebral oxygenation and hemodynamic responses with single-vessel resolution.
Researchers at UC San Diego have received new grants that will help develop full-body imaging techniques to detect inflammation, which is currently very difficult to visualize in the clinic.
Researchers from PNNL have been assessing installation and use of electric heat pumps in an Alaskan community that relies on fuel oil for heat. The resulting information could advance electrification in cold rural areas across the nation.
ChatGPT-4, an artificial intelligence program designed to understand and generate human-like text, outperformed internal medicine residents and attending physicians at two academic medical centers at processing medical data and demonstrating clinical reasoning. In a research letter published in JAMA Internal Medicine, physician-scientists at Beth Israel Deaconess Medical Center (BIDMC) compared a large language model’s (LLM) reasoning abilities directly against human performance using standards developed to assess physicians.
Cognitive radio-frequency (RF) sensing is essential in modern sensing applications, but efficiently processing the broadband RF signals is challenging. To tackle this problem, scientists in China invented a photonic chip, which transforms the broadband RF signals into sparse features and lessens the challenge of digital processing.
Miniaturizing spectrometers for compact and cost-effective mobile platforms is a significant challenge in current spectroscopy research.
Researchers have developed a high-performance energy management unit (EMU) that significantly boosts the efficiency of electrostatic generators for Internet of Things (IoT) applications.
A recent study introduces the OptiDrop platform, revolutionizing droplet microfluidics by integrating innovative optical fibers into microfluidic chips. This breakthrough enhances sensitivity for detecting scatter and fluorescence signals, offering rapid and cost-effective insights into genetics, proteins, and metabolites.
Recent research employs spatiotemporal data fusion techniques, specifically Spatial and Temporal Adaptive Reflectance Fusion Model (STARFM) and Simultaneously generate Full-length normalized difference vegetation Index Time series (SSFIT) algorithms, to address cloud cover challenges in satellite imagery, significantly improving the accuracy of land surface phenology (LSP) monitoring.
In the field of environmental and climate science, researchers have developed the Comprehensive Mechanistic Light Response (CMLR) gross primary production (GPP) dataset.
Today we announce work by the Globus team that overcomes that limitation so that data transfers can start—and in some cases even complete—before a user makes a transfer request.
The Speech Accessibility Project, which aims to train voice recognition technologies to understand people with diverse speech patterns and disabilities, is recruiting U.S. and Puerto Rican adults with cerebral palsy.
Salisbury University students have new opportunities to reach for the stars thanks to a Space Act Agreement signed between SU and NASA’s Goddard Space Flight Center. The partnership is expected to provide enhanced experiential learning opportunities for SU students at NASA’s Wallops Flight Facility.
In a survey of more than 200 U.S. oncologists, vast majority indicate that oncologists should be able to explain how AI works to their patients. Respondents say AI developers, more than oncologists or hospitals, have responsibility for legal issues arising from AI use in cancer care.
AIR COMPANY researchers have joined with Miguel Modestino, director of NYU Tandon's Sustainable Engineering Initiative (SEI), to develop new applications for its AIRMADE™ technology that uses a process similar to photosynthesis to convert CO2 into high-performance fuels and chemicals.
The new company, led by a former executive from Foundation Medicine and Gritstone bio, is using advances in T-cell receptor repertoire analysis to reveal previously undetectable signals in standard liquid biopsy samples.
While pacemakers have been instrumental in treating many patients with heart rhythm disorders, their bulky design and dependence on wires can limit their usefulness and poses a risk of heart damage or infection. Researchers have cut the cords, shrunk the size, and expanded the capabilities of current designs.
The Korea Institute of Fusion Energy(KFE) announced that it successfully sustained the plasma with ion temperatures of 100 million degrees Celsius for 48 seconds during the last KSTAR plasma campaign run from December 2023 to February 2024. Additionally, it achieved the high confinement mode(H-mode) for over 100 seconds.
Dr. Cheol-Woo Ahn at the Korea Institute of Materials Science(KIMS), has developed the world's first heat dissipation material. This material reduces hydrophilicity through a chemical reaction that forms a nanocrystalline composite layer and increases thermal conductivity by controlling point defects.
ECE associate professor Joohyung Kim has created “Ringbot,” a monocycle robot with two legs. The hybrid leg-wheel mechanism enables the robot to tackle diverse terrains, from urban areas to indoor environments. The robot’s ability to maneuver through narrow spaces means this design can be adapted for last-mile deliveries in congested environments.
Global production of LED lights, wind turbine generators, EV batteries and more require critical materials that are in high demand. A new report, led by scientists at Argonne National Laboratory, assesses rare materials and their supply.
Astrophysicists at the State University of New York, Stony Brook, and University of California, Berkeley, used the Oak Ridge Leadership Computing Facility’s Summit supercomputer to compare models of X-ray bursts in 2D and 3D.
The UK Department for Science, Innovation and Technology (DSIT), through the UK Research and Innovation (UKRI) Infrastructure Fund, has announced its commitment to support UK personnel involved in research, development, and major equipment contributions towards the Electron-Ion Collider (EIC).
The present study explores the dose-effect relationship between electroacupuncture with different parameters and the regulation of Endogenous opioid peptides system.
Recently, researchers have made significant progress in the field of soft matter self-assembly, unveiling innovative methods to create complex spherical packing superlattices. These developments pave the way for new approaches in fabricating detailed nanoscale structures.
Bloomberg L.P. co-founder and Binghamton University alumnus Tom Secunda ’76, MA ’79 today announced a landmark $5 million donation to Binghamton University to attract, recruit and retain tech talent, creating a pipeline for students to participate in the artificial intelligence economy of the future.
The research team led by Dr. Jeong Hak-geun at the Energy ICT Research Department of the Korea Institute of Energy Research (referred to as 'KIER') has developed a building energy management platform technology that transforms buildings from being the main consumers of energy into entities that produce, manage, and save energy.
The United Soybean Board Joins the International Phytobiomes Alliance as a sponsoring partner and will join the Coordinating Committee to contribute to the advancement of phytobiomes research to provide sustainable solutions for agriculture.
China faces the dual challenges of air pollution and climate change, with significant implications for public health and the environment. The Chinese government has initiated a synergetic approach to tackle these issues simultaneously, aiming for carbon neutrality and clear sky.
A solar-powered aircraft being developed by a University of Miami aerospace engineer could fly on Mars to help answer questions about the red planet.
Community Health Network, a leading provider of healthcare services in the state of Indiana, has announced an exciting partnership with Ferrum Health, a pioneer in healthcare artificial intelligence solutions aimed at enhancing patient care and outcomes through cutting-edge technology.
For centuries, “open sesame” have been the magic words used to gain access to a cave of treasures. When it comes to the wonders of wireless, there’s only one magic phrase for unlocking the wireless future: “Open Radio Access networks” (O-RAN).
For soft tissue to recover and regrow, it needs blood vessels to grow to deliver oxygen and nutrients. Sluggish vascularization, however, can slow or even prevent recovery and regrowth of lost or damaged soft tissue after a severe injury or serious illness such as cancer.
Researchers have unveiled an innovative approach to create flexible organic integrated circuits (ICs) devoid of parasitic capacitance. This advancement heralds a substantial enhancement in the dynamic performance and operating frequency of organic thin-film transistors (OTFTs) and rectifying diodes, charting a course towards the realization of high-performance, cost-effective, and energy-efficient flexible electronics.
Pascack Valley Medical Center has proudly announced the acquisition of the Genius™ 3D Mammography™ system from Hologic. This technology promises better, earlier detection of breast cancer, providing patients with more accurate results and greater peace of mind during screenings.
A study introduces Global Navigation Satellite Systems (GNSS) gyroscopes, revolutionizing the measurement of angular velocity and acceleration. This innovation promises to transform aerospace, automotive, and robotics by offering precise, cost-effective motion analysis, marking a new era in navigation and motion understanding.
Scientists have developed an innovative calibration algorithm for the Inertial Measurement Unit (IMU).This algorithm significantly enhances navigation precision by utilizing acoustic signals from seabed beacons.