Sentences with phrase «computational model developed»
September 15, 2015 Data - driven approach could help improve allocation of biomedical research resources A new computational model developed by scientists from the University of Chicago could help improve the allocation of U.S. biomedical research resources.
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«This is the first biological validation of a computational model developed in the early 1980s that suggested that two such forces would be necessary to guide axons as they establish the connections that relay spatial information from one part of the nervous system to another,» said study author Yimin Zou, PhD, assistant professor of neurobiology at the University of Chicago.
Emanuel and his colleagues had previously devised a technique to simulate hurricane development in a changing climate, using a specialized computational model they developed that simulates hurricanes at high spatial resolutions.
Data about Los Altos Hills was fed to a computational model developed by study co-author Thomas Hamacher, a professor of electrical and computer engineering at TUM.
A new computational model developed by scientists from the University of Chicago could help improve the allocation of U.S. biomedical research resources.
The heuristic patterns which emerge differ from the computational models we develop in a lab through emotions and consciousness, elements that artificial intelligence still struggle with and may never truly achieve.
Not exact matches
The team analyzes patient - specific data from magnetic resonance imaging (MRI), positron emission tomography (PET), x-ray computed tomography (CT), biopsies and other factors, in order to develop their computational model.
Moreover, the team, which consists of Ruslan Guseinov, Eder Miguel, and Bernd Bickel, developed the computational tools to take a user - provided 3D model and automatically create a 2D flattened template that, upon release, transforms into the original 3D version.
Fussenegger's group developed the genetic network; Professor of Biosystems Engineering Andreas Hierlemann and his team tested the acidity sensor with the aid of microfluidic platforms; and Jörg Stelling, a professor of computational systems biology, modelled it in order to estimate the dynamics of the insulin production.
«Modeling the rhythmic electrical activities of the brain: A new mathematical tool has been developed to help computational neuroscientists explore neural circuits» dynamic responses to stimuli.»
To address the complexity of the biologic pathways that create and respond to pressure sore development, the researchers designed a computational, or «in silico,» model of the process based on serial photographs of developing ulcers from spinal cord - injured patients enrolled in studies at Pitt's Rehabilitation Engineering Research Center on Spinal Cord Injury.
Integrated computational materials engineering is a field of science that develops computational models so scientists can understand materials at these various scales, allowing them to tailor and optimize custom - designed microstructures with the necessary properties for the functions they are destined for.
They fed the simulation details from a previously developed hydrocode — a computational tool they used to model the fluid and solid dynamics of the impact.
«With the advances in computational capacities, it is now possible to develop digital 3 - D models of complex physiological systems and track transport processes therein through computational fluid mechanics.»
«We developed the algorithms — the computational code — to optimize the atomic model so that it best fit the experimental data.»
A UT Arlington assistant engineering professor has developed a computational model that can more accurately predict when an epileptic seizure will occur next based on the patient's personalized medical information.
He is now working to develop a computational model to describe the acceleration of particles in supernova remnants.
In 2010, Radovitzky's group, working in concert with the Defense and Veterans Brain Injury Center, a part of the U.S. military health system, developed a highly sophisticated, image - based computational model of the human head that illustrates the ways in which pressurized air moves through its soft tissues.
Now Lawrence Berkeley National Laboratory (Berkeley Lab) researchers have extended cryo - EM's impact further by developing a new computational algorithm that was instrumental in constructing a 3 - D atomic - scale model of bacteriophage P22 for the first time.
And based on these correlations, they developed a computational model to predict outcomes.
These ratings were fed into computational models that the researchers had developed to predict which semantic domains had been the sources or targets of metaphorical extension.
The work, published in the scientific journal PLoS Computational Biology, is part of the EU project BioPreDyn, which aims to develop computational models to analyze multi-scale biologiComputational Biology, is part of the EU project BioPreDyn, which aims to develop computational models to analyze multi-scale biologicomputational models to analyze multi-scale biological networks.
Tüzel and Kingsley developed computational models that helped shape the design of the device, which was co-developed by Tüzel and researchers at Stanford University.
To analyze the neural recordings the researchers developed an odor - recognition data classifier and computational model that allowed them to compare the recognition scores between the natural flower scents and those embedded with various backgrounds.
Dartmouth researchers developed a new biological pathway - based computational model, called the Pathway - based Human Phenotype Network (PHPN), to identify underlying genetic connections between different diseases as reported in BioDataMining this week.
Princeton University researchers have developed a computational model for creating a «perfect glass» that never crystallizes — even at absolute zero.
A CMU - developed computational model was able to predict which sentences the participants were reading in Portuguese, based only on activation patterns.
The new computational model is built on CogSketch, an artificial intelligence platform previously developed in Forbus» laboratory.
A Northwestern University team developed a new computational model that performs at human levels on a standard intelligence test.
A new integrated computational climate model developed to reduce uncertainties in future climate predictions marks the first successful attempt to bridge Earth systems with energy and economic models and large - scale human impact data.
We developed a computational model that learns from the limited data we already have, and then allows us to screen potential candidates from a massive database of materials about a million times faster than current screening methods.»
Researchers at MIT's Computer Science and Artificial Intelligence Laboratory have developed a new computational model of a neural circuit in the brain, which could shed light on the biological role of inhibitory neurons — neurons that keep other neurons from firing.
The display of three - dimensional computed tomographic reconstructions in a mobile application equipped with a hands - free voice recognition system and a zoom function, developed specifically for this purpose by a team of physicists from the Interdisciplinary Centre for Mathematical and Computational Modelling of the University of Warsaw, enabled the physician - operators to clearly visualize the distal coronary vessel and verify the direction of the guide wire advancement relative to the course of the blocked vessel segment.
For her PhD project, Dew is developing experimental and computational models to look for ways to accelerate blood vessel growth in skin grafts.
Previously thought too complicated to solve, researchers at Agency for Science, Technology and Research (A * STAR), Singapore, have now developed a computational model to simulate the motion of an elliptical vortex ring in a slow - moving fluid in a range of different situations, allowing for a more realistic description of vortex rings.
If the HBP scales down to its technological core — developing useful computational tools and models for neurological research, as mundane as that may sound — then Henry Markram may well leave a great and lasting legacy to neuroscience.
My research focuses on developing robust multiscale computational paradigms to model the structure - property relations of minerals in order to develop a fundamental understanding of the origins of water and organic materials in our Solar System.
This effort includes working with emerging technologies, as well as developing computational tools for circuit modeling and visualization.
Leading computational neuroscientists will develop mathematical and computer models of this brain activity.
This workshop addressed the challenge of developing maintainable, modular, modern, and scalable software dedicated to the modeling of environment effects in Computational Molecular Sciences.
In their work examining intergranular attack of alloys under hydrothermal conditions, scientists from PNNL's ACMD Division Computational Mathematics group, Physical Sciences Division, and Energy and Environment Directorate developed a mathematical model that is directly comparable to experimental data in predicting how fast oxygen penetrates binary alloys and the resulting depletion of select elements in the materials that leads to failures.
Twenty years later, in 1983, Alfred Gierer developed computational models of this process.
We focus on developing computational methods and tools for (a) analyzing large - scale gene expression data related to human cancer in search for gene markers and disease sub-categories, (b) identifying regulatory elements such as miRNA precursors and their targets in whole genomes of plants and mammals, (c) building theoretical models of gene regulatory networks.
When hydraulic fracturing or «fracking» to access unconventional oil and gas reserves was a hot topic in the fossil fuel industry, Ryerson was tapped to lead a team to develop GEOS — a dynamic computational rock mechanics and hydrologic tool — that can model facture propagation, resulting seismic signals and pressure - driven fluid flow through a rock mass.
Providence, RI (OBBeC)- According to a report from Brown University, researchers from the university and other institutions have developed a computational computer model of how brain tumours grow and evolve.
Methods: Rosso and Sushko developed a new multi-scale computational model that encompasses the essential forces acting between atoms, molecules, and particles.
Two grants: $ 700,000 (3 years); $ 750,000 (3 years) «Computational Research & Development for Rapid Sequencing Nanotechnology» «Experimental Research & Development for Rapid Sequencing Nanotechnology» This group will develop computational modeling to guide the fabrication of a novel nanotechnology sequencing device, as well as design electronic control and detectionComputational Research & Development for Rapid Sequencing Nanotechnology» «Experimental Research & Development for Rapid Sequencing Nanotechnology» This group will develop computational modeling to guide the fabrication of a novel nanotechnology sequencing device, as well as design electronic control and detectioncomputational modeling to guide the fabrication of a novel nanotechnology sequencing device, as well as design electronic control and detection experiments.
But experimental and computational scientists developed methods to sift through all the complexity and improve the illusive process of prediction with a simple model.
By developing a computational shortcut to rapidly estimate genome size using statistical modeling, Dr. Pollard's team has been able to improve the accuracy of microbiome studies.
We developed several computational and machine learning methods to successfully identify behavioral patterns or signatures associated with different classes of reference drugs, from which to predict the class of novel compounds (Brunner et al., 2012, Alexandrov et al., 2015), and more recently developed methods to allow us to compare animal models of AD and its progression, and to identify (in silico) novel compounds from our existing database of thousands of novel and reference compounds with the potential to reverse the AD model behavioral profile.