Fractal Behaviour and Irregularity of Wetting Fronts in Heterogeneous Porous Media

The wetting front is the zone where water invades and advances into an initially dry porous material and it plays a crucial role in solute transport through the unsaturated zone. Water is an essential part of the physiological process of all plants. Through water, necessary minerals are moved from the roots to the parts of the plants that require them. Water moves chemicals from one part of the plant to another. It is also required for photosynthesis, for metabolism and for transpiration. The leaching of chemicals by wetting fronts is influenced by two major factors, namely: the irregularity of the fronts and heterogeneity in the distribution of chemicals, both of which have been described by using fractal techniques. Soil structure can significantly modify infiltration rates and flow pathways in soils. Relations between features of soil structure and features of infiltration could be elucidated from the velocities and the structure of wetting fronts. When rainwater falls onto soil, it doesn?t just pool on surfaces. Water ?or another fluid- acts differently on porous surfaces. If the surface is permeable (porous) it seeps down through layers of soil, filling that layer to capacity. Once that layer is filled, it moves down into the next layer. In sandy soil, water moves quickly, while it moves much slower through clay soil. The movement of water through soil layers is called the the wetting front. Our research concerns the motion of a liquid into an initially dry porous medium. Our work presents a theoretical framework for studying the physical interplay between a stationary wetting front of fractal dimension D with different porous materials. The aim was to model the mass geometry interplay by using the fractal dimension D of a stationary wetting front. The plane corresponding to the image is divided in several squares (the minimum correspond to the pixel size) of size length ". We acknowledge the help of Prof. M. García Velarde and the facilities offered by the Pluri-Disciplinary Institute of the Complutense University of Madrid. We also acknowledge the help of European Community under project Multi-scale complex fluid flows and interfacial phenomena (PITN-GA-2008-214919). Thanks are also due to ERCOFTAC (PELNoT, SIG 14)

Community Structurein Soil Porous System.

Soil is well recognized as a highly complex system. The interaction and coupled physical, chemical, and biological processes and phenomena occurring in the soil environment at different spatial and temporal scales are the main reasons for such complexity. There is a need for appropriate methodologies to characterize soil porous systems with an interdisciplinary character. Four different real soil samples, presenting different textures, have been modeled as heterogeneous complex networks, applying a model known as the heterogeneous preferential attachment. An analytical study of the degree distributions in the soil model shows a multiscaling behavior in the connectivity degrees, leaving an empirically testable signature of heterogeneity in the topology of soil pore networks. We also show that the power-law scaling in the degree distribution is a robust trait of the soil model. Last, the detection of spatial pore communities, as densely connected groups with only sparser connections between them, has been studied for the first time in these soil networks. Our results show that the presence of these communities depends on the parameter values used to construct the network. These findings could contribute to understanding the mechanisms of the diffusion phenomena in soils, such as gas and water diffusion, development and dynamics of microorganisms, among others.

Air pollution data classification by SOM Neural Network

Over the last ten years, Salamanca has been considered among the most polluted cities in México. This paper presents a Self-Organizing Maps (SOM) Neural Network application to classify pollution data and automatize the air pollution level determination for Sulphur Dioxide (SO2) in Salamanca. Meteorological parameters are well known to be important factors contributing to air quality estimation and prediction. In order to observe the behavior and clarify the influence of wind parameters on the SO2 concentrations a SOM Neural Network have been implemented along a year. The main advantages of the SOM is that it allows to integrate data from different sensors and provide readily interpretation results. Especially, it is powerful mapping and classification tool, which others information in an easier way and facilitates the task of establishing an order of priority between the distinguished groups of concentrations depending on their need for further research or remediation actions in subsequent management steps. The results show a significative correlation between pollutant concentrations and some environmental variables.

Topology of a percolating soil pore network.

A connectivity function defined by the 3D-Euler number, is a topological indicator and can be related to hydraulic properties (Vogel and Roth, 2001). This study aims to develop connectivity Euler indexes as indicators of the ability of soils for fluid percolation. The starting point was a 3D grey image acquired by X-ray computed tomography of a soil at bulk density of 1.2 mg cm-3. This image was used in the simulation of 40000 particles following a directed random walk algorithms with 7 binarization thresholds. These data consisted of 7 files containing the simulated end points of the 40000 random walks, obtained in Ruiz-Ramos et al. (2010). MATLAB software was used for computing the frequency matrix of the number of particles arriving at every end point of the random walks and their 3D representation.

A Monitoring Infrastructure for FPGA Self-Awareness and Dynamic Adaptation

Variabilities associated with CMOS evolution affect the yield and performance of current digital designs. FPGAs, which are widely used for fast prototyping and implementation of digital circuits, also suffer from these issues. Proactive approaches start to appear to achieve self-awareness and dynamic adaptation of these devices. To support these techniques we propose the employment of a multi-purpose sensor network. This infrastructure, through adequate use of configuration and automation tools, is able to obtain relevant data along the life cycle of an FPGA. This is realised at a very reduced cost, not only in terms of area or other limited resources, but also regarding the design effort required to define and deploy the measuring infrastructure. Our proposal has been validated by measuring inter-die and intra-die variability in different FPGA families.

Cattle-powered nodes experience in a heterogeneous network for localization of herds

A heterogeneous network, mainly based on nodes that use harvested energy to self-energize is presented and its use demonstrated. The network, mostly kinetically powered, has been used for the localization of herds in grazing areas under extreme climate conditions. The network consists of secondary and primary nodes. The former, powered by a kinetic generator, take advantage of animal movements to broadcast a unique identifier. The latter are battery-powered and gather secondarynode transmitted information to provide it, along with position and time data, to a final base station in charge of the animal monitoring. Because a limited human interaction is desirable, the aim of this network is to reduce the battery count of the system.

A self-timed multipurpose delay sensor for field programmable gate arrays (FPGAs)

This paper presents a novel self-timed multi-purpose sensor especially conceived for Field Programmable Gate Arrays (FPGAs). The aim of the sensor is to measure performance variations during the life-cycle of the device, such as process variability, critical path timing and temperature variations. The proposed topology, through the use of both combinational and sequential FPGA elements, amplifies the time of a signal traversing a delay chain to produce a pulse whose width is the sensor’s measurement. The sensor is fully self-timed, avoiding the need for clock distribution networks and eliminating the limitations imposed by the system clock. One single off- or on-chip time-to-digital converter is able to perform digitization of several sensors in a single operation. These features allow for a simplified approach for designers wanting to intertwine a multi-purpose sensor network with their application logic. Employed as a temperature sensor, it has been measured to have an error of ±0.67 °C, over the range of 20–100 °C, employing 20 logic elements with a 2-point calibration.

Detecting false testimonies in reputation systems using self-organizing maps

It has been demonstrated that rating trust and reputation of individual nodes is an effective approach in distributed environments in order to improve security, support decision-making and promote node collaboration. Nevertheless, these systems are vulnerable to deliberate false or unfair testimonies. In one scenario, the attackers collude to give negative feedback on the victim in order to lower or destroy its reputation. This attack is known as bad mouthing attack. In another scenario, a number of entities agree to give positive feedback on an entity (often with adversarial intentions). This attack is known as ballot stuffing. Both attack types can significantly deteriorate the performances of the network. The existing solutions for coping with these attacks are mainly concentrated on prevention techniques. In this work, we propose a solution that detects and isolates the abovementioned attackers, impeding them in this way to further spread their malicious activity. The approach is based on detecting outliers using clustering, in this case self-organizing maps. An important advantage of this approach is that we have no restrictions on training data, and thus there is no need for any data pre-processing. Testing results demonstrate the capability of the approach in detecting both bad mouthing and ballot stuffing attack in various scenarios.

Static and Dynamic Experimental Analysis of the Galloping Stability of Porous H-Section Beams

The phenomenon of self-induced vibrations of prismatic beams in a cross-flow has been studied for decades, but it is still of great interest due to their important effects in many different industrial applications. This paper presents the experimental study developed on a prismatic beam with H-section.The aim of this analysis is to add some additional insight into the behaviour of the flow around this type of bodies, in order to reduce galloping and even to avoid it. The influence of some relevant geometrical parameters that define the H-section on the translational galloping behaviour of these beams has been analysed. Wind loads coefficients have been measured through static wind tunnel tests and the Den Hartog criterion applied to elucidate the influence of geometrical parameters on the galloping properties of the bodies under consideration.These results have been completed with surface pressure distribution measurements and, besides, dynamic tests have been also performed to verify the static criterion. Finally, the morphology of the flow past the tested bodies has been visualised by using smoke visualization techniques. Since the rectangular section beam is a limiting case of the H-section configuration, the results here obtained are compared with the ones published in the literature concerning rectangular configurations; the agreement is satisfactory.

An introduction to flow and transport in fractal models of porous media: Part I

This special issue gathers together a number of recent papers on fractal geometry and its applications to the modeling of flow and transport in porous media. The aim is to provide a systematic approach for analyzing the statics and dynamics of fluids in fractal porous media by means of theory, modeling and experimentation. The topics covered include lacunarity analyses of multifractal and natural grayscale patterns, random packing's of self-similar pore/particle size distributions, Darcian and non-Darcian hydraulic flows, diffusion within fractals, models for the permeability and thermal conductivity of fractal porous media and hydrophobicity and surface erosion properties of fractal structures.

Self-regulation of discharge in non-compensating subsurface drip irrigation emitters

Se muestra los resultados de un studio con modelos de goteros enterrados donde se observa un efecto de autoreegulación del efecto de sobrepresión del agua en el suelo.

Participación Directa y Aprendizaje de los Trabajadores en Mejoras Tecnológicas a Empresas Bajo Gestión Colectiva. Aplicación en Industrias Metalúrgicas de Venezuela y Argentina

La industria metalúrgica estatal venezolana ha vivido, desde sus inicios, procesos cíclicos de cambios y ajustes tecnológicos. Estos procesos no han sido objeto de sistematización que asegure el aprendizaje y apropiación del conocimiento. Este hecho, aún hoy, ha obstaculizado los procesos de apropiación y mejora de las tecnologías asociadas al sector. A partir del acompañamiento a iniciativas de participación de grupos de interés surgidos del seno de los trabajadores, se planteó esta investigación que tuvo como propósito la determinación de condiciones y relaciones para su participación directa en los procesos de mejora de las tecnologías existentes y el fortalecimiento del aprendizaje asociado. Se consideraron dos ámbitos Latinoamericanos donde hay manifestación de gestión colectiva y participación: Venezuela y Argentina. En el caso venezolano, el abordaje se realizó bajo la Investigación Acción Participativa (IAP), desarrollando la “investigación próxima”, como estrategia de acompañamiento, mediante “talleres de formación-investigación” y la sistematización de experiencias considerando la perspectiva y necesidades de los actores. En el caso argentino, el abordaje se realizó mediante visitas, entrevistas, reuniones y encuentros. Los talleres realizados en Venezuela, en un contexto de diálogo de saberes, facilitaron el surgimiento de herramientas prácticas para la sistematización de su propia experiencia (“Preguntas generadoras”, “Mi historia con la tecnología”, “Bitácora de aprendizaje”). El intercambio con los pares argentinos ha generado una red que plantea la posibilidad de construcción y nucleación conjunta de saberes y experiencia, tanto para los trabajadores como para los investigadores. Los casos estudiados referidos a las empresas recuperadas por los trabajadores (ERTs) argentinos evidencian un proceso de participación marcada por su autonomía en la gestión de la empresa, dadas las circunstancias que los llevó a asumirla para conservar sus puestos de trabajo. De estos casos emergieron categorías asociadas con elementos de gestión de un proceso técnico–tecnológico, como la participación en la planificación, concepción o diseño de la mejora. La participación en general está asociada al hecho asambleario, vinculado a las prácticas de toma de decisiones autogestionarias como expresión de una alta participación. La Asamblea, como máxima instancia de participación, y el Consejo de Administración son las formas de participación prevalecientes. En cuanto al aprendizaje, los trabajadores de las ERTs argentinas aportaron categorías de gran significación a los procesos de socialización del conocimiento: conocimiento colectivo y cooperación del conocimiento, rescate de los saberes y formación de trabajadores que tomen el relevo. Las categorías surgidas de las ERTs argentinas, los referentes teóricos y el interés de los trabajadores venezolanos fueron la base para la valoración tanto de su grado de participación en las mejoras a procesos tecnológicos emprendidas, como del aprendizaje asociado. Ésta valoración se realizó bajo una aproximación borrosa dado el carácter ambiguo de estas categorías que fueron trabajadas como conjuntos que se relacionan, más que como variables. Se encontró que la participación, se configura como un sub-conjunto del aprendizaje para contribuir a su fortalecimiento. Las condiciones y relaciones para fortalecer la participación en los asuntos tecnológicos surgieron a partir de la sistematización y síntesis de ambas experiencias (Venezuela y Argentina) conjugando una estructura que contempla la formación para la nucleación de colectivos de saberes (proyectos de mejora o innovaciones), las redes por afinidad, la sistematización de su propia experiencia técnica y los enlaces institucionales. Estos resultados dan cuenta de la integración de los intereses de las partes (trabajadores, investigadores, instituciones), mediante las estrategias de encuentro, de sistematización de los propios métodos y de conformación de los “colectivos de saberes”, la red de IAP en la industria (IAP Industrial) considerando la “deriva de la investigación”, bajo discursos práctico–teóricos propios, como posibilidad de posicionamiento de su participación en los asuntos tecnológicos de sus respectivas organizaciones, abriendo una oportunidad de ampliación de la experiencia en otros ámbitos y sectores. ABSTRACT Venezuelan's state owned steel industry has experienced since its earliest years, cycles of change and technological adjustments. These processes have not been systematized to ensure learning and knowledge in those organizations. This fact, even today, has hindered the processes of appropriation and improving the technologies associated with the sector. In order to support initiatives involving metalworker interest groups, this research was aimed at determining conditions and relations for their direct participation in process improvements to existing technologies and strengthening the associated learning. Two Latin American countries, Venezuela and Argentina, were considered on the base of their collective management and participation experiences. The Venezuelan approach was carried out under the Participatory Action Research (PAR) strategy, through the ‘proximal research’ as support strategy, by means of ‘workshops–research’ and systematization of experiences considering the perspective and needs of actors. Workshops were carried out in metallurgical enterprises from steel and aluminum at Guayana, Venezuela and its affiliates in the Central region. Those industries have been promoted collective management. The Argentine approach was carried out through visits, interviews, meetings and gatherings. The workshops held in Venezuela, in a dialogue of knowledge context, facilitated the emergence of tools for the systematization of their own experience (‘generating questions’, ‘My history with technology’, ‘Learning Log’). The relation with Argentine peers has generated a network that creates opportunities of knowledge and experience construction and its nucleation for both, workers and researchers. The cases studied relating to Argentine workers’ recuperated enterprises show a participatory process marked by autonomy in the management of the factory, given the circumstances that led them to take it in order to maintain their jobs. From these cases emerged categories associated with management aspects about technical-technology process, such as participation in planning, design or implementation of the improvement. Participation, in general, is associated with assemblies, joined to the practices of self-management decision-making as an expression of a high participation. The Cooperative General Assembly, as the highest instance of participation, and the Board of Directors are the prevalent forms of participation. In relation to learning, Argentine workers’ recuperated enterprises provided categories of great significance to the process of socialization of knowledge: collective knowledge and knowledge cooperation, recovery of knowledge and training workers for replacement. Based on categories arising from the Argentine experience, theoretical framework and the interest of the Venezuelan workers the assessment of both, their degree of participation on technical improvements and the associated technological learning were made considering a fuzzy approach, given the ambiguous nature of these categories that were worked as sets rather than variables. It was found that participation is configured as a subset of learning to contribute to its strengthening. The conditions and relations to strengthen participation in technology issues emerged from the systematization and synthesis of both experiences (Venezuela and Argentina) combining a structure which provides training for the nucleation of collectives of knowledge (improvement projects or innovations), affinity networks, systematization of their own expertise and institutional links. These results show the integration of the interests of stakeholders (workers, researchers, institutions) through strategies like meetings, systematization of their own methods, forming ‘collectives of technological knowledge’ and a participative action research network in this industry (Industrial PAR) considering the ‘research drift’, under their own practical-theoretical discourses positioned as a possibility of their participation in technological activities in their respective organizations, opening an opportunity for scaling to other areas and sectors.

Development of a fuzzy control based self-adaptive system for energy saving in constrained networks for the Internet of Things

Las redes del futuro, incluyendo las redes de próxima generación, tienen entre sus objetivos de diseño el control sobre el consumo de energía y la conectividad de la red. Estos objetivos cobran especial relevancia cuando hablamos de redes con capacidades limitadas, como es el caso de las redes de sensores inalámbricos (WSN por sus siglas en inglés). Estas redes se caracterizan por estar formadas por dispositivos de baja o muy baja capacidad de proceso y por depender de baterías para su alimentación. Por tanto la optimización de la energía consumida se hace muy importante. Son muchas las propuestas que se han realizado para optimizar el consumo de energía en este tipo de redes. Quizás las más conocidas son las que se basan en la planificación coordinada de periodos de actividad e inactividad, siendo una de las formas más eficaces para extender el tiempo de vida de las baterías. La propuesta que se presenta en este trabajo se basa en el control de la conectividad mediante una aproximación probabilística. La idea subyacente es que se puede esperar que una red mantenga la conectividad si todos sus nodos tienen al menos un número determinado de vecinos. Empleando algún mecanismo que mantenga ese número, se espera que se pueda mantener la conectividad con un consumo energético menor que si se empleara una potencia de transmisión fija que garantizara una conectividad similar. Para que el mecanismo sea eficiente debe tener la menor huella posible en los dispositivos donde se vaya a emplear. Por eso se propone el uso de un sistema auto-adaptativo basado en control mediante lógica borrosa. En este trabajo se ha diseñado e implementado el sistema descrito, y se ha probado en un despliegue real confirmando que efectivamente existen configuraciones posibles que permiten mantener la conectividad ahorrando energía con respecto al uso de una potencia de transmisión fija. ABSTRACT. Among the design goals for future networks, including next generation networks, we can find the energy consumption and the connectivity. These two goals are of special relevance when dealing with constrained networks. That is the case of Wireless Sensors Networks (WSN). These networks consist of devices with low or very low processing capabilities. They also depend on batteries for their operation. Thus energy optimization becomes a very important issue. Several proposals have been made for optimizing the energy consumption in this kind of networks. Perhaps the best known are those based on the coordinated planning of active and sleep intervals. They are indeed one of the most effective ways to extend the lifetime of the batteries. The proposal presented in this work uses a probabilistic approach to control the connectivity of a network. The underlying idea is that it is highly probable that the network will have a good connectivity if all the nodes have a minimum number of neighbors. By using some mechanism to reach that number, we hope that we can preserve the connectivity with a lower energy consumption compared to the required one if a fixed transmission power is used to achieve a similar connectivity. The mechanism must have the smallest footprint possible on the devices being used in order to be efficient. Therefore a fuzzy control based self-adaptive system is proposed. This work includes the design and implementation of the described system. It also has been validated in a real scenario deployment. We have obtained results supporting that there exist configurations where it is possible to get a good connectivity saving energy when compared to the use of a fixed transmission power for a similar connectivity.

Self-antigen does not accelerate immature B cell apoptosis, but stimulates receptor editing as a consequence of developmental arrest

In pre-B lymphocytes, productive rearrangement of Ig light chain genes allows assembly of the B cell receptor (BCR), which selectively promotes further developmental maturation through poorly defined transmembrane signaling events. Using a novel in vitro system to study immune tolerance during development, we find that BCR reactivity to auto-antigen blocks this positive selection, preventing down-regulation of light chain gene recombination and promoting secondary light chain gene rearrangements that often alter BCR specificity, a process called receptor editing. Under these experimental conditions, self-antigen induces secondary light chain gene rearrangements in at least two-thirds of autoreactive immature B cells, but fails to accelerate cell death at this stage. These data suggest that in these cells the mechanism of immune tolerance is receptor selection rather than clonal selection.

Proton uptake by bacterial reaction centers: The protein complex responds in a similar manner to the reduction of either quinone acceptor

In bacterial photosynthetic reaction centers, the protonation events associated with the different reduction states of the two quinone molecules constitute intrinsic probes of both the electrostatic interactions and the different kinetic events occurring within the protein in response to the light-generated introduction of a charge. The kinetics and stoichiometries of proton uptake on formation of the primary semiquinone QA− and the secondary acceptor QB− after the first and second flashes have been measured, at pH 7.5, in reaction centers from genetically modified strains and from the wild type. The modified strains are mutated at the L212Glu and/or at the L213Asp sites near QB; some of them carry additional mutations distant from the quinone sites (M231Arg → Leu, M43Asn → Asp, M5Asn → Asp) that compensate for the loss of L213Asp. Our data show that the mutations perturb the response of the protein system to the formation of a semiquinone, how distant compensatory mutations can restore the normal response, and the activity of a tyrosine residue (M247Ala → Tyr) in increasing and accelerating proton uptake. The data demonstrate a direct correlation between the kinetic events of proton uptake that are observed with the formation of either QA− or QB−, suggesting that the same residues respond to the generation of either semiquinone species. Therefore, the efficiency of transferring the first proton to QB is evident from examination of the pattern of H+/QA− proton uptake. This delocalized response of the protein complex to the introduction of a charge is coordinated by an interactive network that links the Q− species, polarizable residues, and numerous water molecules that are located in this region of the reaction center structure. This could be a general property of transmembrane redox proteins that couple electron transfer to proton uptake/release reactions.