826 research outputs found
Evolution algebras, automorphisms, and graphs
The affine group scheme of automorphisms of an evolution algebra e with e 2 is shown to lie in an exact sequence ¿ D ¿ Aut(E) ¿ S, where D, diagonalizable, and S, constant, depend solely on the directed graph associated to e. As a consequence, the Lie algebra of derivations Der(e) (with e 2 = E)is shown to be trivial if the characteristic of the ground field is 0 or 2, and to be abelian, with a precise description, otherwise
Advances in the development of the discrete element method for excavation processes
Modelling of granular materials, soils and rocks has been a challenging topic of investigation for decades. Classical continuum mechanics has been used to idealize soils and rocks, and numerical solution techniques such as finite element method (FEM) has been used to model these materials. Considering the idealization of the material, continuum mechanics allows the analysis of phenomena with discontinuous nature such as fracture in rock or soil via damage models. However, in more complex processes like rock milling or crushing, this kind of models are usually not suitable. Discrete models are more appropriate for problems with multiple discontinuities and particulate materials.
The discrete element method (DEM) has been gaining popularity in analysis of granular materials, soils and rocks. Many aspects of this method still require more profound investigation.
This thesis presents new developments of the discrete element method improving effi ciency and accuracy of modelling of rock-like materials, especially in excavation processes. All the numerical algorithms has been implemented in an in-house software, which was then used to run numerical examples.
The basic formulation of DEM with linear elastic-perfectly brittle contact model is presented. The main di erence with other models found in the literature is the consideration of global sti ness and strength parameters that are constants in the whole model.
The result of a simulations is strongly related with the con guration of the particle assembly used. Particle assemblies should be su ciently compact and ensure the isotropy to reproduce the physical properties of the modelled material. This thesis presents a novel technique for the generation of highly dense particle assemblies in arbitrary geometries, satisfying all the requirements for accurate discrete element simulations.
One of the key issues in the use of the DEM is the estimation of the contact model parameters. A methodology is proposed for the estimation of the contact model parameters yielding required macroscopic properties of the material. The relationships between the contact model parameters and the mechanical properties of brittle materials, as well as the influence of the particles assembly con guration on the macroscopic properties, are analysed.
A major di culty in the application of the DEM to real engineering problems is the high computational cost in simulation involving a large number of particles. The most common way to solve this is the use of parallel computing techniques, where multiple processors are used. As an alternative, a coupling scheme between DEM and the finite element method (FEM) is proposed in the thesis. Within the hybrid DEM/FEM model, DEM is only used in the region of the domain where it provides an advantage over a continuum-based approach, as the FEM. The coupling is dynamically adapted, starting with the whole domain discretized with FEM. During the simulation, in the regions where a high stress level are found, a change of modelling method from continuum FEM to the discrete DEM is employed.
Finally, all the developments are applied to the simulation of a real excavation process. An analysis of the rock cutting process with TBM disc cutters is performed, where DEM and the DEM/FEM coupling technique presents an important advantage over other simulation techniques.La modelación de materiales granulares, terrenos y rocas ha sido un desafÃo para la investigación por décadas. La mecánica del continuo clásica ha sido utilizada para idealizar terrenos y rocas, y técnicas numéricas de solución, como el método de los elementos finitos (FEM), han sido usadas para modelar estos materiales. Considerando la idealización del material, la mecánica del continuo permite el análisis de fenómenos de naturaleza discontinua como la fractura en rocas y terreno mediante modelos de daño. Sin embargo, en procesos mas complejos como la molienda o trituración de roca, este tipo de modelos no suelen ser adecuados. Los modelos discretos son mas apropiados para problemas con múltiples discontinuidades y material particulado. El método de los elementos discretos (DEM) ha ido ganando popularidad en el análisis de materiales granulares, terrenos y rocas. Sin embargo, muchos aspectos de este método todavÃa requieren una investigación mas profunda.
Esta tesis presenta nuevos desarrollos del método de los elementos discretos para mejorar su eficiencia y precisión en el modelado de materiales como roca, especialmente para procesos de excavación. Todos los algoritmos numéricos se han implementado en el programa propio, que ha sido utilizado para probar distintos ejemplos. La formulación básica del DEM, con un modelo lineal de contacto elástico perfectamente frágil ha sido utilizado en el presente trabajo. La principal diferencia
con otros modelos de la literatura es la consideración de que los parámetros de rigidez y fuerzas máximas son valores globales y constantes en todo el modelo.
El resultado de la simulación está fuertemente relacionado con la configuración del ensamblaje de partÃculas utilizado. El ensamblaje de partÃculas debe ser suficientemente compacto y asegurar la isotropÃa de las propiedades fÃsicas del material modelado.
La tesis presenta una nueva técnica para la generación de ensamblajes de partÃculas de alta densidad para geometrÃas arbitrarias, satisfaciendo todos los requisitos para una simulación con elementos discretos correcta.
Uno de los temas clave en el uso del DEM es la estimación de los parámetros del modelo de contacto. Se propone una metodologÃa para la estimación de los parámetros del modelo de contacto siguiendo las propiedades macroscópicas requeridas en el material
Las relaciones entre los parámetros del modelo y las propiedades mecánicas de materiales frágiles, asà como su la influencia de la configuración del ensamblaje de partÃculas son analizadas.
Una gran dificultad en la aplicación del DEM en problemas reales de ingenierÃa es el alto costo computacional de simulaciones que consideran un gran número de partÃculas. La solución mas común para resolver esto es el uso de técnicas de computación paralela, donde se utiliza un gran número de procesadores. Como vÃa alternativa, un esquema acoplado entre el DEM y el FEM expuesto en la tesis. Con el modelo hÃbrido DEM/FEM, el DEM es usado solo en las partes del dominio donde presenta ventajas sobre el enfoque continuo del FEM. El acoplamiento puede ser adaptado dinámicamente, comenzando con todo el dominio discretizado con FEM, y durante la simulación, en las regiones donde se encuentran altos niveles de tensión, se emplea un cambio del método de simulación de continuo (FEM) a discreto (DEM).
Finalmente, todos los desarrollos son aplicados a la simulación de un proceso excavación real. Se realiza un estudio del proceso de corte de roca con discos costadores, utilizados en tuneladoras, donde el DEM y la técnica de acoplamiento presentan una importante ventaja sobre otras técnicas de simulación
Effects of One Laptop Per Child Programs in the Daily Lives of People Excluded from the Community: The Role of South European Rural Schools
he aim of this study was to learn how the One Laptop per Child (OLPC) program in rural schools of a Southern European country offers opportunities to children, helps parents to get information and creates links with families and neighbours. The methodology was qualitative, with deep interviews with teachers, principals, parents and students from five Spanish rural schools. Among the findings, we observed that schools have new opportunities to link with communities and to communicate with parents when the curriculum is open and narrative. The shortcomings of policies, the academic role of projects and the resistance and prejudice of parents are preventing a better rapport between schools and communities in their fight against exclusio
Stimulus-response compatibility between stimulated eye and response location: implications for attentional accounts of the Simon effect
[Abstract] One influential theory of the Simon effect, the attention-shift hypothesis, states that attention movements are the origin of spatial stimulus codes. According to this hypothesis, stimulus-response compatibility effects should be absent when attention shifts are prevented. To test this prediction, we used monocular patches of color that required left or right key-press responses. About half of the subjects could discriminate which eye was stimulated (in a subsequent task), and showed strong spatial compatibility effects between the stimulated eye and the response location. The other half of the subjects could not make a utrocular discrimination (i.e., they could not judge which eye had received monocular stimulation), but the pattern of results was the same: the fastest reaction times were observed when the stimulated eye corresponded spatially to the required response (i.e., a Simon effect). Since the subjects presumably did not move their attention (from the subject's point of view, the stimuli were presented centrally), our results indicate that spatial codes can be produced in the absence of attention shifts. These results also show that utrocular discrimination can be assessed via indirect measures that are much more sensitive than explicit measures.Ministerio de Cultura (España); PR2002–007
Validación del Cuestionario de Autoevaluación de la Creatividad en la Enseñanza Universitaria CACEU-2010
La creatividad es un vector formativo de la
enseñanza y de las relaciones entre estudiantes y profesores
en la Educación Superior. A tal fin, el Cuestionario
de Autoevaluación de la Creatividad en la Enseñanza
Universitaria (CACEU-2010) se ha diseñado para
conocer cómo comprenden los profesores universitarios
la creatividad aplicada a su enseñanza y facilitar su autoevaluación.
Se estructuró como una escala de autoinforme,
conformada por 44 Ãtemes. Se estudió la validez
de contenido, realizada por jueces expertos. La
fiabilidad se obtuvo con el método Alpha de Cronbach,
y el parámetro obtuvo valores entre 0,70 y 0,94 para
las diferentes subescalas utilizadas
Gastrostomy uptake in motor neurone disease: a mixed-methods study of patients’ decision making
Objectives: Gastrostomy decision making is a complicated, multifaceted process for people with motor neuron disease (MND). This study explored demographic and disease-related factors that may impact on gastrostomy uptake; and reasons why people with MND accepted or declined gastrostomy, with a focus on how perceptions of swallowing and nutrition may influence decision making.Design: Prospective, cross sectional, mixed methods.Setting: An Australian multidisciplinary, specialty MND Service.Participants: 33 patients were recommended gastrostomy by the treating medical specialist. 16 of 33 were invited to participate in the prospective decision making study; of whom 10 provided informed consent.Primary and secondary outcome measures: Demographic and disease-related factors contributing to uptake are described. A stepped approach was applied to gain a comprehensive understanding of why people with MND accept or decline gastrostomy. Instruments included standardised assessments, nutrition survey and semistructured interview. Data were collected at three separate appointments, spanning a 3-week period.Results: Gastrostomy uptake was 73% following medical specialist recommendation. Participants took days, weeks or months to consider their preferences, with lengthy hospital waiting times for the procedure. Gender, site of onset and rate of disease progression were observed to contribute to uptake. Age and symptom duration did not. Integration of quantitative and qualitative data suggests that patient perceptions of swallowing and nutrition contribute to gastrostomy acceptance; however, the decision making process is heterogeneous and these factors may not be the sole or primary reasons for acceptance. Other reported factors included: reducing carer burden, improving quality of life, increasing independence, continuing participation in social outings and gaining control.Conclusions: Future research may give greater insight into how healthcare organisations can better facilitate gastrostomy decision making, to meet the needs of people living with MND. Larger, prospective, multisite studies may build on these findings to better inform clinical guidelines and minimise the impacts of delayed gastrostomy insertion
Single-molecule fluorescence studies of intrinsically disordered proteins and liquid phase separation
Intrinsically disordered proteins (IDPs) are ubiquitous in proteomes and serve in a range of cellular functions including signaling, regulation, transport and enzyme function. IDP misfunction and aggregation are also associated with several diseases including neurodegenerative diseases and cancer. During the past decade, single-molecule methods have become popular for detailed biophysical and structural studies of these complex proteins. This work has included recent applications to cellular liquid-liquid phase separation (LLPS), relevant for functional dynamics of membraneless organelles such as the nucleolus and stress granules. In this concise review, we cover the conceptual motivations for development and application of single-molecule fluorescence methods for such IDP studies. We follow with a few key examples of systems and biophysical problems that have been addressed, and conclude with thoughts for emerging and future directions
Biodiversity of grapevines (Vitis vinifera L.) grown in the Aosta Valley
The PCR-based DNA microsatellite analysis has been applied to define genetic relationships among 19 most representative grapevine cultivars in the Aosta valley. Eighteen varieties grown nearby, in the Savoy (France), Valais (Switzerland) and Piedmont (Italy) regions, were also analysed, to verify the correlations with the Aosta cultivars inferred by the analysis of synonyms and/or morphology. Results were obtained by analysing 12 DNA microsatellite loci. High biodiversity has been recorded amongst the analysed grapevines. In some cases cultivars known with different names in the Valley and in the nearby regions displayed the same SSR allele size, proving the occurrence of synonyms. In other case, identical denominations did not correspond with the genomic identity.
Phylogenetic analysis of grapevine cv. Ansonica growing on the island of Giglio, Italy, by AFLP and SSR markers
The geographic origin of the grapevine cultivar Ansonica (Vitis vinifera L.) grown on the island of Giglio, Tuscany, Italy, was investigated with molecular tools, i.e. AFLP and SSR (microsatellite) analysis. The scored polymorphic DNA bands were statistically analysed and the results were expressed in dendrograms showing the degree of genomic similarity among the tested cultivars: three Ansonica vines sampled in some of the oldest vineyards of the island, one Ansonica specimen grown in Tuscany, one Inzolia specimen grown in Sicily, 23 cultivars grown in different Mediterranean regions and 40 Greek cultivars. The results obtained from AFLP or SSR approaches led to equivalent conclusions: the three grapevines sampled in Giglio were indistinguishable and showed genetic similarity with cv. Ansonica grown in the Tuscan mainland and with cv. Inzolia from Sicily, Airen from Spain, Clairette from France and Roditis from Greece. The SSR analysis showed that Sideritis and Roditis have the highest genomic similarity with Ansonica among the 40 tested Greek cultivars. The molecular analysis gives conclusive evidence for the Greek origin of Ansonica grown on the island, as previously proposed on the basis of morphological and historical studies
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