1-10 of 25 results
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Discontinuity-driven mesh adaptation method for hyperbolic conservation laws
PI Mihhail Berezovski
The proposed project is aimed at developing a highly accurate, efficient, and robust one-dimensional adaptive-mesh computational method for simulation of the propagation of discontinuities in solids. The principal part of this research is focused on the development of a new mesh adaptation technique and an accurate discontinuity tracking algorithm that will enhance the accuracy and efficiency of computations. The main idea is to combine the flexibility afforded by a dynamically moving mesh with the increased accuracy and efficiency of a discontinuity tracking algorithm, while preserving the stability of the scheme.
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STEM Literacy and Service-Learning
PI Sally Blomstrom
This service-learning project investigates STEM literacy and involves students in sections of Speech (COM 219). Students create an audio tour about a specimen from the A. Jewell Schock Natural History Museum. The audio tour includes the specimen’s scientific name, a description of its biology, its habitat, its diet, and the forces of flight related to the specimen as well as its biomechanics.
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Exploring vulnerabilities, threats, and exploits in small unmanned aerial systems (sUAS)
PI John Craiger
Small unmanned aerial systems (sUAS), also known as drones, have been called flying computers given the overlap in their technologies. The purpose of this research is to conduct cybersecurity vulnerability assessments of several sUAS to identify vulnerabilities, threats, and associated exploits to the sUAS. Cyber vulnerabilities could theoretically allow a bad actor to take control of the sUAS, cause it to malfunction while in flight, and more.
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Resolving Physical Conditions of Diffuse Ionized Gas throughout the Milky Way-Magellanic System
PI Lawrence Haffner
CO-I Edwin Mierkiewicz
We use a dedicated, sensitive spectroscopic facility in Chile, the Wisconsin H-Alpha Mapper (WHAM), to study the physical conditions of the diffuse ionized gas (DIG) in the Milky Way and Magellanic System.
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Meta-Analyses of the Effects of Standardized Handoff Protocols on Patient, Provider, and Organizational Outcomes
PI Joseph Keebler
CO-I Elizabeth Lazzara
This meta-analysis attempts to understand the benefits of a structured communication process on patient, provider, and organizational outcomes. Studies have found that one of the most crucial points during a patient’s hospital stay is the transition of care between one or more providers, often referred to as a patient handoff. These brief interactions between providers are often especially vulnerable to communication breakdowns due to interruptions, omission of pertinent information by the sender or receiver of the information. To illustrate, upwards of 80% of severe, preventable medical errors have been attributed to miscommunication during handoffs. In other words, failures in communication during handoff are potentially responsible for the loss of hundreds of thousands of lives every year in the United States.
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Understanding Factors that Influence Anesthesia Handoffs
PI Elizabeth Lazzara
CO-I Joseph Keebler
Communication is an essential aspect of quality patient care in modern medicine, yet mishaps in communication during handoffs (i.e., the transition of a patient between two or more providers) happen frequently. The purpose of this project was to understand the factors that influence handoffs between anesthesia providers and clinicians within the post anesthesia care unit.
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MRI: Acquisition of A Meteor Radar for the Andes Lidar Observatory
PI Alan Liu
Categories: Faculty-Staff
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Collaborative Research: DASI Track 2--A Distributed Meteor Radar and Optical Network in South America
PI Alan Liu
This project will establish a distributed network of meteor radars and optical instruments in the mid-latitudes of South America, providing continuous measurements of upper atmospheric winds and nighttime wave perturbations in the mesosphere and thermosphere.
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REU Site: Exploring Aerospace Research at the Intersection of Mechanics, Materials Science, and Aerospace Physiology
PI Foram Madiyar
CO-I Alberto Mello
This Project is founded by National Science Foundation, under REU site. This project aims to educate students and promote scientific research in materials and aerospace science that encompasses not only building lighter and smarter materials for aerospace applications but also understanding the impact of the space environment on physiological and biological changes.
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1-10 of 25 results