2,285 research outputs found
Severity scoring of manganese health effects for categorical regression
Characterizing the U-shaped exposure response relationship for manganese (Mn) is necessary for estimating the risk of adverse health from Mn toxicity due to excess or deficiency. Categorical regression has emerged as a powerful tool for exposure-response analysis because of its ability to synthesize relevant information across multiple studies and species into a single integrated analysis of all relevant data. This paper documents the development of a database on Mn toxicity designed to support the application of categorical regression techniques. Specifically, we describe (i) the conduct of a systematic search of the literature on Mn toxicity to gather data appropriate for dose-response assessment; (ii) the establishment of inclusion/exclusion criteria for data to be included in the categorical regression modeling database; (iii) the development of a categorical severity scoring matrix for Mn health effects to permit the inclusion of diverse health outcomes in a single categorical regression analysis using the severity score as the outcome variable; and (iv) the convening of an international expert panel to both review the severity scoring matrix and assign severity scores to health outcomes observed in studies (including case reports, epidemiological investigations, and in vivo experimental studies) selected for inclusion in the categorical regression database. Exposure information including route, concentration, duration, health endpoint(s), and characteristics of the exposed population was abstracted from included studies and stored in a computerized manganese database (MnDB), providing a comprehensive repository of exposure-response information with the ability to support categorical regression modeling of oral exposure data
Spin Hall Effect induced by resonant scattering on impurities in metals
The Spin Hall Effect (SHE) is a promising way for transforming charge
currents into spin currents in spintronic devices. Large values of the Spin
Hall Angle, the characteristic parameter of the yield of this transformation,
have been recently found in noble metals doped with nonmagnetic impurities. We
show that this can be explained by resonant scattering off impurity states
split by the spin-orbit interaction. We apply our calculation to the
interpretation of experiments on copper doped with 5d impurities and we
describe the conditions to obtain the largest effects
Quantum Clock Synchronization Based on Shared Prior Entanglement
We demonstrate that two spatially separated parties (Alice and Bob) can
utilize shared prior quantum entanglement, and classical communications, to
establish a synchronized pair of atomic clocks. In contrast to classical
synchronization schemes, the accuracy of our protocol is independent of Alice
or Bob's knowledge of their relative locations or of the properties of the
intervening medium.Comment: 4 page
Communicating Applied Mathematics: Four Examples
Communicating Applied Mathematics is a writing- and speaking-intensive graduate course at North Carolina State University. The purpose of this article is to provide a brief description of the course objectives and the assignments. Parts A–D of of this article represent the class projects and illustrate the outcome of the course:
• The Evolution of an Optimization Test Problem: From Motivation to Implementation, by Daniel E. Finkel and Jill P. Reese
• Finding the Volume of a Powder from a Single Surface Height Measurement, by Christopher Kuster
• Finding Oscillations in Resonant Tunneling Diodes, by Matthew Lasater
• A Shocking Discovery: Nonclassical Waves in Thin Liquid Films, by Rachel Lev
Network Analysis of Gut Microbiome Throughout a Whole Foods Based High Fiber Dietary Intervention Reveals Complex Community Dynamics in Melanoma Survivors
https://openworks.mdanderson.org/sumexp22/1139/thumbnail.jp
Bandwidth efficient coding: Theoretical limits and real achievements. Error control techniques for satellite and space communications
In his seminal 1948 paper 'The Mathematical Theory of Communication,' Claude E. Shannon derived the 'channel coding theorem' which has an explicit upper bound, called the channel capacity, on the rate at which 'information' could be transmitted reliably on a given communication channel. Shannon's result was an existence theorem and did not give specific codes to achieve the bound. Some skeptics have claimed that the dramatic performance improvements predicted by Shannon are not achievable in practice. The advances made in the area of coded modulation in the past decade have made communications engineers optimistic about the possibility of achieving or at least coming close to channel capacity. Here we consider the possibility in the light of current research results
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