371 research outputs found
A statistical approach for modeling individual vertical walking forces
This paper proposes a statistical approach for modeling vertical walking forces induced by single pedestrians. To account for the random nature of human walking, the individual vertical walking force is modeled as a series of steps and the gait parameters are assumed to vary at each step. Walking parameters are statistically calibrated with respect to the results of experimental tests performed with a force plate system. Results showed that the walking parameters change during walking and are correlated with each other. The force model proposed in this paper is a step-by-step model based on the description of the multivariate distribution of the walking features through a Gaussian Mixture model. The performance of the proposed model is compared to that of a simplified load model and of two force models proposed in the literature in a numerical case study. Results demonstrate the importance of an accurate modeling of both the single step force and the variability of the individual walking force
A Boolean Gene Regulatory Model of heterosis and speciation
Modelling genetic phenomena affecting biological traits is important for the
development of agriculture as it allows breeders to predict the potential of
breeding for certain traits. One such phenomenon is heterosis or hybrid vigor:
crossing individuals from genetically distinct populations often results in
improvements in quantitative traits, such as growth rate, biomass production
and stress resistance. Heterosis has become a very useful tool in global
agriculture, but its genetic basis remains controversial and its effects hard
to predict. We have taken a computational approach to studying heterosis,
developing a simulation of evolution, independent reassortment of alleles and
hybridization of Gene Regulatory Networks (GRNs) in a Boolean framework.
Fitness is measured as the ability of a network to respond to external inputs
in a pre-defined way. Our model reproduced common experimental observations on
heterosis using only biologically justified parameters. Hybrid vigor was
observed and its extent was seen to increase as parental populations diverged,
up until a point of sudden collapse of hybrid fitness. We also reproduce, for
the first time in a model, the fact that hybrid vigor cannot easily be fixed by
within a breeding line, currently an important limitation of the use of hybrid
crops. The simulation allowed us to study the effects of three standard models
for the genetic basis of heterosis and the level of detail in our model allows
us to suggest possible warning signs of the impending collapse of hybrid vigor
in breeding. In addition, the simulation provides a framework that can be
extended to study other aspects of heterosis and alternative evolutionary
scenarios.Comment: See online version for supplementary materia
The economic crisis as a trigger of convergence? : short-time work in Italy, Germany and Austria
In all European countries, emergency policy measures have been introduced in order to counteract the
employment consequences of the economic crisis. In the context of variously composed anti-crisis
packages, many European countries have used Short-Time Work (STW) schemes, that is measures
to subsidize a temporary reduction in working time intended to maintain an employment relationship.
This article focuses on the issue of whether the economic crisis has spurred any convergence in
the use of STW in three social-insurance countries \u2013 Austria, Germany and Italy \u2013 or whether
policy change has rather occurred in a path-dependent fashion. In order to do so, the article also
adopts a systemic approach, focusing on relationships of complementarity or functional substitution
and equivalence among the various schemes comprising income maintenance systems to tackle the
risks of partial or total unemployment
AnGeLi: A Tool for the Analysis of Gene Lists from Fission Yeast
Genome-wide assays and screens typically result in large lists of genes or proteins. Enrichments of functional or other biological properties within such lists can provide valuable insights and testable hypotheses. To systematically detect these enrichments can be challenging and time-consuming, because relevant data to compare against query gene lists are spread over many different sources. We have developed AnGeLi (Analysis of Gene Lists), an intuitive, integrated web-tool for comprehensive and customized interrogation of gene lists from the fission yeast, Schizosaccharomyces pombe. AnGeLi searches for significant enrichments among multiple qualitative and quantitative information sources, including gene and phenotype ontologies, genetic and protein interactions, numerous features of genes, transcripts, translation, and proteins such as copy numbers, chromosomal positions, genetic diversity, RNA polymerase II and ribosome occupancy, localization, conservation, half-lives, domains, and molecular weight among others, as well as diverse sets of genes that are co-regulated or lead to the same phenotypes when mutated. AnGeLi uses robust statistics which can be tailored to specific needs. It also provides the option to upload user-defined gene sets to compare against the query list. Through an integrated data submission form, AnGeLi encourages the community to contribute additional curated gene lists to further increase the usefulness of this resource and to get the most from the ever increasing large-scale experiments. AnGeLi offers a rigorous yet flexible statistical analysis platform for rich insights into functional enrichments and biological context for query gene lists, thus providing a powerful exploratory tool through which S. pombe researchers can uncover fresh perspectives and unexpected connections from genomic data. AnGeLi is freely available at: www.bahlerlab.info/AnGeLi
Ultrafast amplification and non-linear magneto-elastic coupling of coherent magnon modes in an antiferromagnet
We study the magnon dynamics of an antiferromagnetic NiO single crystal in a
pump-probe experiment with variable pump photon energy. Analysing the amplitude
of the energy-dependent photo-induced ultrafast spin dynamics, we detect a yet
unreported coupling between the material's characteristic THz- and a GHz-magnon
modes. We explain this unexpected coupling between two orthogonal eigenstates
of the corresponding Hamiltonian by modelling the magneto-elastic interaction
between spins in different domains. We find that such interaction, in the
non-linear regime, couples the two different magnon modes via the domain walls
and it can be optically exploited via the exciton-magnon resonance.Comment: 6 pages, 4 figure
Experimental and theoretical analysis of Landauer erasure in nanomagnetic switches of different sizes
The authors acknowledge support by the European Union (FPVII (2007-2013) under G.A. n.318287 LANDAUER, and by MIUR-PRIN 2010–11 Project 2010ECA8P3 “DyNanoMag.”. M.P. and P.V. acknowledge funding from the Spanish Ministry of Economy and Competitiveness (Project No. MAT2012-36844); M.P. acknowledges support by Spanish Ministry of Economy and Competitiveness (grant BES-2013-063690).Bistable nanomagnetic switches are extensively used in storage media and magnetic memories, associating each logic state to a different equilibrium orientation of the magnetization. Here we consider the issue of the minimum energy required to change the information content of nanomagnetic switches, a crucial topic to face fundamental challenges of current technology, such as power dissipation and limits of scaling. The energy dissipated during a reset operation, also known as “Landauer erasure”, has been accurately measured at room temperature by vectorial magneto-optical measurements in arrays of elongated Permalloy nanodots. Both elliptical and rectangular dots were analysed, with lateral sizes ranging from several hundreds to a few tens of nanometers and thickness of either 10 nm or 5 nm. The experimental results show a nearly linear decrease of the dissipated energy with the dot volume, ranging from three to one orders of magnitude above the theoretical Landauer limit of kBT×ln(2). These experimental findings are corroborated by micromagnetic simulations showing that the significant deviations from the ideal macrospin behavior are caused by both inhomogeneous magnetization distribution and edge effects, leading to an average produced heat which is appreciably larger than that expected for ideal nanoswitches.PostprintPeer reviewe
A new system for animal products traceability and authentication: use of DNA analysis of natural tracers and example of application to dry cured hams
AbstractA few DNA based approaches have been developed to trace animal products from the farm to the consumer "fork". These approaches make use of the animal DNA that can be recovered during all steps of the production chain directly as part of the products that are obtained from them. This direct link between the animals and the products can be assessed using DNA markers like, for example, single nucleotide polymorphisms and microsatellites, for individual or population based (breed) traceability systems. However, these methods, in general, rely on the possibility to constitute banks of animal biological samples for critical/important steps of the production chain and analyse a large number of samples (individual traceability) or to identify breed/population multilocus informative markers or few specific mutations that can distinguish the breed/population of origin (breed traceability). Here we developed a new traceability and authentication system that makes use of the DNA contained in an added material..
Enhanced Magneto-Optical Edge Excitation in Nanoscale Magnetic Disks
We report unexpected enhancements of the magneto-optical effect in ferromagnetic Permalloy disks of diameter D < 400 nm. The effect becomes increasingly pronounced for smaller D, reaching more than a 100% enhancement for D ÂĽ 100 nm samples. By means of experiments and simulations, the origin of this effect is identified as a nanoscale ring-shaped region at the disk edges, in which the magneto-optically induced electric polarization is enhanced. This leads to a modification of the electromagnetic near fields and causes the enhanced magneto-optical excitation, independent from any optical resonance.We acknowledge funding from the Basque Government
(Program No. PI2012-47) and the Spanish Government
(Project No.MAT2012-36844).Work at the Universidad de
Cantabria has been supported by MICINN under Project
No. FIS2013-45854-P
Diagnostic accuracy of a velcro sound detector (VECTOR) for interstitial lung disease in rheumatoid arthritis patients: The InSPIRAtE validation study (INterStitial pneumonia in rheumatoid ArThritis with an electronic device)
Background: Interstitial lung disease (ILD) is a severe systemic manifestation of rheumatoid arthritis (RA). High-resolution computed tomography (HRCT) represents the gold standard for the diagnosis of ILD, but its routine use for screening programs is not advisable because of both high cost and X-ray exposure. Velcro crackles at lung auscultation occur very early in the course of interstitial pneumonia, and their detection is an indication for HRCT. Recently, we developed an algorithm (VECTOR) to detect the presence of Velcro crackles in pulmonary sounds and showed good results in a small sample of RA patients. The aim of the present investigation was to validate the diagnostic accuracy of VECTOR in a larger population of RA patients, compared with that of the reference standard of HRCT, from a multicentre study. Methods: To avoid X-ray exposure, we enrolled 137 consecutive RA patients who had recently undergone HRCT. Lung sounds of all patients were recorded in 4 pulmonary fields bilaterally with a commercial electronic stethoscope (ES); subsequently, all HRCT images were blindly evaluated by a radiologist, and audio data were analysed by means of VECTOR. Results: Fifty-nine of 137 patients showed ILD (43.1%). VECTOR correctly classified 115/137 patients, showing a diagnostic accuracy of 83.9% and a sensitivity and specificity of 93.2 and 76.9%, respectively. Conclusions: VECTOR may represent the first validated tool for the screening of RA patients who are suspected for ILD and who should be directed to HRCT for the diagnosis. Moreover, early identification of RA-ILD could contribute to the design of prospective studies aimed at elucidating unclear aspects of the disease
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