1,842 research outputs found
Well-being Consciousness and College Access Borderlands: Staff Perspectives on Supporting Students’ Well-Being
More than 2550 pre-college preparation and college access programs in the United States are designed to increase the postsecondary enrollment and degree obtainment rates for historically excluded college students, including low-income and Students of Color. Less known is how these programs address the social emotional, and well-being needs of college-going Black and Indigenous women enrolling at Predominately White Institutions (PWIs). Guided by Gloria Anzaldúa’s Borderlands theory, this study analyzed interviews with five current and former college access program staff to uncover if and how college access programs define and implement well-being into college access initiatives. Findings revealed varied racialized and gendered conceptions and expectations of well-being, as well as competing outcome-based threats to developing a well-being consciousness. This study contributes new scholarship on the cultivation of well-being in college access spaces from the perspective of college access staff
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Minimizing Detection Probability Routing in Ad Hoc Networks Using Directional Antennas
In a hostile environment, it is important for a transmitter to make its wireless transmission invisible to adversaries because an adversary can detect the transmitter if the received power at its antennas is strong enough. This paper defines a detection probability model to compute the level of a transmitter being detected by a detection system at arbitrary location around the transmitter. Our study proves that the probability of detecting a directional antenna is much lower than that of detecting an omnidirectional antenna if both the directional and omnidirectional antennas provide the same Effective Isotropic Radiated Power (EIRP) in the direction of the receiver. We propose a Minimizing Detection Probability (MinDP) routing algorithm to find a secure routing path in ad hoc networks where nodes employ directional antennas to transmit data to decrease the probability of being detected by adversaries. Our study shows that the MinDP routing algorithm can reduce the total detection probability of deliveries from the source to the destination by over 74%.RIGHTS : This article is licensed under the BioMed Central licence at http://www.biomedcentral.com/about/license which is similar to the 'Creative Commons Attribution Licence'. In brief you may : copy, distribute, and display the work; make derivative works; or make commercial use of the work - under the following conditions: the original author must be given credit; for any reuse or distribution, it must be made clear to others what the license terms of this work are
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Unified Software for Multi-Functional G-Code: A Method for Implementing Multi-Technology Additive Manufacturing
Additive manufacturing (AM) began a manufacturing revolution moving industrial
production into consumer homes. With interest shifting toward multi-functional parts fabricated
through AM technologies, multi-functional fabrication systems are now being developed.
Merging different manufacturing technologies into a single machine is a challenge, but ongoing
research in the development of multi-technology systems has shown promise. The software and
automation aspects of multi-technology systems are being developed in unison. This paper
explores the challenges and approaches to developing software that interfaces with multifunctional
CADs and creates files for direct use in multi-technology AM machines.Mechanical Engineerin
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Cooperative Fabrication Methodology for Embedding Wireon Corved Surfaces
In conventional additive manufacturing (AM), an object is fabricated by depositing material in a
layer by layer fashion. Typically, this process is retained so that deposition can occur on flat
surfaces and motion can be constrained to requiring only three degrees of freedom (DOF) in a
Cartesian coordinate system. When incorporating wire in three-dimensional (3D) objects, there is
sometimes a need for placement along curved surfaces on which positions are defined not only
by 3D Cartesian coordinates but also angular ones. Therefore, a minimum of two additional
DOFs are required allowing movement to be generated at the build platform as well as of the
extrusion head. This paper addresses a method for trajectory planning of both systems, that is,
the extrusion head and the movable build platform, allowing for cooperative and harmonic
motion between the two.Mechanical Engineerin
A VLT/VIMOS view of two multiple-cluster systems: structure and galaxy properties
We analysed spectroscopic data obtained with VLT-VIMOS for two
multiple-cluster systems, PLCKG and PLCKG, discovered
via their thermal Sunyaev-Zel'dovich signal by . Combining the Optical
spectroscopy, for the redshift determination, and photometric data from galaxy
surveys (SDSS, WISE, DESI), we were able to study the structure of the two
multiple-cluster systems, to determine their nature and the properties of their
member galaxies. We found that the two systems are populated mainly with
passive galaxies and that PLCKG consists of a pair of clusters at
redshift and a background isolated cluster at , whereas
the system PLCKG is a chance association of three independent
clusters at redshifts , , and . We also find
evidence for remaining star formation activity in the highest-redshift cluster
of PLCKG, at .Comment: 12 pages, 9 Figures, 5 Tables. Submitted to A&A, comments are welcom
Electrical Switching Dynamics in Circular and Rectangular Ge2Sb2Te5 Nanopillar Phase Change Memory Devices
We have measured the critical phase change conditions induced by electrical
pulses in Ge2Sb2Te5 nanopillar phase change memory devices by constructing a
comprehensive resistance map as a function of pulse parameters (width,
amplitude and trailing edge). Our measurements reveal that the heating scheme
and the details of the contact geometry play the dominant role in determining
the final phase composition of the device such that a non-uniform heating
scheme promotes partial amorphization/crystallization for a wide range of pulse
parameters enabling multiple resistance levels for data storage applications.
Furthermore we find that fluctuations in the snap-back voltage and set/reset
resistances in repeated switching experiments are related to the details of the
current distribution such that a uniform current injection geometry (i.e.
circular contact) favors more reproducible switching parameters. This shows
that possible geometrical defects in nanoscale phase change memory devices may
play an essential role in the performance of the smallest possible devices
through modification of the exact current distribution in the active
chalcogenide layer. We present a three-dimensional finite element model of the
electro-thermal physics to provide insights into the underlying physical
mechanisms of the switching dynamics as well as to quantitatively account for
the scaling behaviour of the switching currents in both circular and
rectangular contact geometries. The calculated temporal evolution of the heat
distribution within the pulse duration shows distinct features in rectangular
contacts providing evidence for locally hot spots at the sharp corners of the
current injection site due to current crowding effects leading to the observed
behaviour
Stochastic search and joint fine-mapping increases accuracy and identifies previously unreported associations in immune-mediated diseases
Abstract: Thousands of genetic variants are associated with human disease risk, but linkage disequilibrium (LD) hinders fine-mapping the causal variants. Both lack of power, and joint tagging of two or more distinct causal variants by a single non-causal SNP, lead to inaccuracies in fine-mapping, with stochastic search more robust than stepwise. We develop a computationally efficient multinomial fine-mapping (MFM) approach that borrows information between diseases in a Bayesian framework. We show that MFM has greater accuracy than single disease analysis when shared causal variants exist, and negligible loss of precision otherwise. MFM analysis of six immune-mediated diseases reveals causal variants undetected in individual disease analysis, including in IL2RA where we confirm functional effects of multiple causal variants using allele-specific expression in sorted CD4+ T cells from genotype-selected individuals. MFM has the potential to increase fine-mapping resolution in related diseases enabling the identification of associated cellular and molecular phenotypes
Star Formation Rate Indicators in Wide-Field Infrared Survey Preliminary Release
With the goal of investigating the degree to which theMIR luminosity in
theWidefield Infrared Survey Explorer (WISE) traces the SFR, we analyze 3.4,
4.6, 12 and 22 {\mu}m data in a sample of {\guillemotright} 140,000
star-forming galaxies or star-forming regions covering a wide range in
metallicity 7.66 < 12 + log(O/H) < 9.46, with redshift z < 0.4. These
star-forming galaxies or star-forming regions are selected by matching the WISE
Preliminary Release Catalog with the star-forming galaxy Catalog in SDSS DR8
provided by JHU/MPA 1.We study the relationship between the luminosity at 3.4,
4.6, 12 and 22 {\mu}m from WISE and H\alpha luminosity in SDSS DR8. From these
comparisons, we derive reference SFR indicators for use in our analysis. Linear
correlations between SFR and the 3.4, 4.6, 12 and 22 {\mu}m luminosity are
found, and calibrations of SFRs based on L(3.4), L(4.6), L(12) and L(22) are
proposed. The calibrations hold for galaxies with verified spectral
observations. The dispersion in the relation between 3.4, 4.6, 12 and 22 {\mu}m
luminosity and SFR relates to the galaxy's properties, such as 4000 {\deg}A
break and galaxy color.Comment: 10 pages, 3 figure
Low-pass shotgun sequencing of the barley genome facilitates rapid identification of genes, conserved non-coding sequences and novel repeats
BACKGROUND: Barley has one of the largest and most complex genomes of all economically important food crops. The rise of new short read sequencing technologies such as Illumina/Solexa permits such large genomes to be effectively sampled at relatively low cost. Based on the corresponding sequence reads a Mathematically Defined Repeat (MDR) index can be generated to map repetitive regions in genomic sequences. RESULTS: We have generated 574 Mbp of Illumina/Solexa sequences from barley total genomic DNA, representing about 10% of a genome equivalent. From these sequences we generated an MDR index which was then used to identify and mark repetitive regions in the barley genome. Comparison of the MDR plots with expert repeat annotation drawing on the information already available for known repetitive elements revealed a significant correspondence between the two methods. MDR-based annotation allowed for the identification of dozens of novel repeat sequences, though, which were not recognised by hand-annotation. The MDR data was also used to identify gene-containing regions by masking of repetitive sequences in eight de-novo sequenced bacterial artificial chromosome (BAC) clones. For half of the identified candidate gene islands indeed gene sequences could be identified. MDR data were only of limited use, when mapped on genomic sequences from the closely related species Triticum monococcum as only a fraction of the repetitive sequences was recognised. CONCLUSION: An MDR index for barley, which was obtained by whole-genome Illumina/Solexa sequencing, proved as efficient in repeat identification as manual expert annotation. Circumventing the labour-intensive step of producing a specific repeat library for expert annotation, an MDR index provides an elegant and efficient resource for the identification of repetitive and low-copy (i.e. potentially gene-containing sequences) regions in uncharacterised genomic sequences. The restriction that a particular MDR index can not be used across species is outweighed by the low costs of Illumina/Solexa sequencing which makes any chosen genome accessible for whole-genome sequence sampling
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