Public Articles
Emerging green routes to nanocellulose
and 3 collaborators
Quantify precipitation contributions of ecosystems on the Tibetan Plateau
and 2 collaborators
BrM 5.2.3 - Internal Workings
UHI in Fortaleza and trends on screen-level air temperature and precipitation
Leech-Inspired Shape-Encodable Liquid Metal Robots for Reconfigurable Circuit Welding and Transient Electronics
and 8 collaborators
The dilemma of fibrous dysplasia versus chronic osteomyelitis of the posterior mandible: a case report
and 3 collaborators
An individually-controlled multi-tined expandable electrode using active-cannula-based shape morphing for on-demand conformal radiofrequency ablation lesions
and 7 collaborators
The dilated triple
This article was published as The dilated triple. Marko A. Rodriguez, Alberto Pepe, Joshua Shinavier. In: Emergent Web Intelligence: Advanced Semantic Technologies, Advanced Information and Knowledge Processing series, Pages 3-16, ISBN:978-1-84996-076-2, Springer-Verlag. 2010.
Abstract. The basic unit of meaning on the Semantic Web is the RDF statement, or triple, which combines a distinct subject, predicate and object to make a definite assertion about the world. A set of triples constitutes a graph, to which they give a collective meaning. It is upon this very simple foundation that the rich, complex knowledge structures of the Semantic Web are built. Yet the very expressivness of RDF, by inviting comparison with real-world knowledge, highlights a fundamental shortcoming of RDF: that it is limited to statements of absolute fact, in contrast to the thoroughly context-sensitive nature of human thought. However, when a statement is interpreted from beyond the scope of its local graph representation, other statements augment its meaning and identify its uniqueness. Following this line of thought, a model is presented in which each statement in an RDF graph is supplemented by some subjectively related subgraph of the same RDF graph, thereby framing the meaning of the statement within a broader context.
Reproducibility checklist for computational science and engineering
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Protein-protein interaction analysis of 2DE proteomic data of desiccation responsive Xerophyta viscosa leaf proteins
[ Environmental and LOS Effects in Lens Models]Quantifying Environmental and Line-of-Sight Effects in Models of Strong Gravitational Lens Systems
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Mass in the immediate environment of a gravitational lens galaxy or projected along the line of sight (LOS) can affect strong lensing observables more than current measurement errors. To quantify the resulting biases and uncertainties in lens model determined quantities like the Hubble constant H0, we consider three lens models that treat the environment and sightline to the lens in different ways: the first ignores mass external to the lens (Lens-Only), the second adds an external shear to the lens plane (Lens+Shear), and the third employs our new framework for multi-plane lensing \citep{McCully14} to build the full three-dimensional mass configuration (3-D Lens), including the additional mass from structures in the lens environment and sightline, as well as foreground and background voids. The Lens-Only model yields poor and biased fits. While the Lens+Shear model can account for tidal stretching from perturbing galaxies at the lens redshift and in the background, it requires corrections for external convergence and cannot fully reproduce the more complicated effects from perturbing foreground galaxies. Critically, our 3-D Lens model, which explicitly includes convergence, recovers lens model parameters without bias and with a scatter driven only by the lens profile degeneracy. For computational efficiency, we quantify which galaxies—by a combination of mass, projected distance from the lens, and offset from the lens redshift—can be treated with the tidal approximation and which need to be treated exactly in the 3-D Lens model. While it not surprising that massive galaxies lying close to the lens are significant perturbers, we also find that foreground structures affect the lens potential more. There is a dramatic variation in the strength of the LOS and environment effects across different lens fields. By modeling each field individually, we produce stronger priors on H0 than by ray-tracing through N-body simulations. We show that lens systems with very asymmetric lens configurations, i.e., those produced by highly elliptical main lens galaxies, are less sensitive to the lens profile degeneracy, thus producing stronger constraints on H0 and making appealing targets for LSST follow-up surveys.
Reproducible and replicable CFD: it's harder than you think
and 1 collaborator
Completing a full replication study of our previously published findings on bluff-body aerodynamics was harder than we thought. Despite the fact that we have good reproducible-research practices, sharing our code and data openly. Here's what we learned from three years, four CFD codes and hundreds of runs.
MolSSI Education: Empowering the Next Generation of Computational Molecular Scientists.
and 3 collaborators
The is a research and education center that supports software development in the . One of ’s core objectives is to provide education and training for the next generation of computational researchers. Education targets various career stages and skill levels through its live workshops, online resources, and software fellowship program. Education focuses its efforts within four areas: programming and software development, and , faculty and curriculum development, and the software fellowship program. This article delineates educational efforts at the , overall goals, and resources that can be useful to researchers in the computational molecular sciences.
How useful are lexicostatistical and phylogenetic methods, in plotting the migration of Polynesian peoples across Oceania?
Genotypic variation rather than ploidy level determines functional trait expression in a foundation tree species in the presence and absence of environmental stress
and 5 collaborators
The First Paper
Our paper is motivated by the recent publication [98] in which the FDTDM was used to compute the LDR for smoke clusters of up to four mono- mers in order to analyze implications of depolarization lidar observations from the Cloud—Aerosol Lidar and Infrared Pathfinder Satellite Observation (CALIPSO) satel- lite [115]. We extend the analysis of Ref. [98] by con- sidering a more comprehensive and representative set of soot-particle models and using what we believe to be more relevant refractive indices.\citep{Mishchenko_2013}
Right cardiac chambers echo-bubble contrast in a patient with decompression sickness: A case report and a literature revie
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BIO 465 Capstone Project Introduction
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Lecture 12- Entanglement
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Robotic Pill for Biomarker and Fluid Sampling in the Gastrointestinal Tract
and 6 collaborators
DarkCideS 1.0, a global database for bats in karsts and caves
and 35 collaborators
Tipos básicos de objeto no R: vetores e listas
and 1 collaborator
1-Nitropyrene Exposure as Genotoxicity and Oxidative Stress Biomarker