Closure of the Monte Carlo dynamical equation in the spherical Sherrington-Kirkpatrick model

We study the analytical solution of the Monte Carlo dynamics in the spherical Sherrington-Kirkpatrick model using the technique of the generating function. Explicit solutions for one-time observables (like the energy) and two-time observables (like the correlation and response function) are obtained. We show that the crucial quantity which governs the dynamics is the acceptance rate. At zero temperature, an adiabatic approximation reveals that the relaxational behavior of the model corresponds to that of a single harmonic oscillator with an effective renormalized mass

Data analysis and tools applied to modeling and simulation of a PV system in Ecuador

This paper presents a research was carried out for the management of a photovoltaic system in a Microgrid, with applications and the use of tools applied to modeling and computational simulation in the Microgrid laboratory implanted in the facilities of the University of Cuenca (Ecuador). Additionally, through the use of automatic learning techniques, the behavior of the photovoltaic system has been modeled in the study area based on radiation and temperature with very good results. In addition, several applications can be made in real engineering studies such as feasibility, performance analysis, energy estimation, educational models, etc

Design rules for antenna placement on MIMO systems

In recent works, it is demonstrated that, depending on the different spatial distributions and distance between elements, there exists a different true polarization diversity (TPD) configuration that provides a high improvement in terms of capacity. This means that it is necessary to choose the appropriate TPD configuration to maximize the multiple-input-multiple-output (MIMO) capacity. In this work, a genetic algorithm is used to optimize the element positions for four new different configurations in combination with the TPD technique. It is shown that, for some configurations, the same polarization option is always found to reach the maximum capacity. Based on this, some novel design rules are provided to maximize MIMO capacity when the area for placing the antennas is very small. This is the case for most of the wireless devices, where the antenna design and location is one of the latest design constraints to be taken into consideration in the device design

Circularly polarised broadband planar lightweight reflectarray with eligible pattern for satellite communications in Ku-Band

This study presents a lightweight planar patch-array reflectarray at Ku-band for satellite communications. The reflectarray is composed of two separate planar structures: the radiating interface formed by a planar multi-layered broadband patch array, and a phase shifting device formed by 3 dB/90° couplers. The radiating element is a multi-layered patch structure, designed to provide circular polarisation (CP). Each array cell phase is controlled by open-ended shifting lines of variable length connected to the 3 dB/90° couplers. The use of this kind of couplers maintains the same CP received/transmitted: the design imposes that if a right-hand CP (RHCP) [or left-hand CP (LHCP)] is received coming from the feeder, the same RHCP (or LHCP) configuration is re-radiated by the reflectarray. Additionally, the feeding horn can be moved in the x or y axes, so that the feeder angular position let re-define the radiation pattern and its pointing direction. Finally, measurements of a lightweight portable planar reflectarray prototype are provided and very good agreement is observed when compared with theoretical result

Broadband electronically tunable reflectionbased phase shifter for active-steering microwave reflectarray systems in Ku-band

This document provides the design of an electronically reconfigurable microwave phase shifter for reflectarray systems. The phase shifter is based on a hybrid coupler with reflective circuits in three ports. Each reflective circuit introduces a phase variation that can be modified due to the variable capacity value of a varactor inserted in it. The phase shifting process includes three different stages of phase shifting for the incoming signal in its way through the phase shifter: the signal is conducted through the device towards the reflective circuits in four different ways. The input port of the device is also the output one, providing the desired reflective phase shifting effect. This device is of great interest in reflectarray applications in order to provide more than 360° of controllable phase shifting at each array element. The document includes the complete design of the phase shifter along with its design parameters and circuital behaviour

Electronically reconfigurable reflective phase shifter for circularly polarized reflectarray systems

This letter presents the design of a two-port electronically reconfigurable phase shifter for circularly polarized reflectarray systems at microwave frequencies. The phase shifter is based on 3 dB/90? couplers combined with reflective circuits that introduce sequentially the phase variation. Each reflective circuit, formed by printed elements (L) and tunable varactors, produces the phase variation due to the variable capacity value of the varactor. The phase shifting process includes three different stages of phase shifting for the signal in its way from the input port towards the output port through the phase shifter. Both ports are interchangeable, acting either as input or output ports. This fulfils the reflection requirements of circularly polarized reflectarrays, being especially suitable for this purpose. The complete design, together with its circuital behavior and performance results, are depicted in this document

Detección de funcionamiento diferencial del ítem en indicadores conductuales de formas paralelas

Background: Despite the crucial importance of the notion of parallel forms within Classical Test Theory, the degree of parallelism between two forms of a test cannot be directly verified due to the unobservable nature of true scores. We intend to overcome some of the limitations of traditional approaches to analyzing parallelism by using the Differential Item Functioning framework. Method: We change the focus on comparison from total test scores to each of the items developed during test construction. We analyze the performance of a single group of individuals on parallel items designed to measure the same behavioral criterion by several DIF techniques. The proposed approach is illustrated with a dataset of 527 participants that responded to the two parallel forms of the Attention Deficit-Hyperactivity Disorder Scale (Caterino, Gómez-Benito, Balluerka, Amador-Campos, & Stock, 2009). Results: 12 of the 18 items (66.6%) show probability values associated with the Mantel χ2 statistic of less than .01. The standardization procedure shows that half of DIF items favoured Form A and the other half Form B. Conclusions: The “differential functioning of behavioral indicators” (DFBI) can provide unique information on parallelism between pairs of items to complement traditional analysis of equivalence between parallel test forms based on total scores.Antecedentes: a pesar de la importancia crucial del concepto de formas paralelas en la Teoría Clásica de los Tests, el grado de paralelismo entre dos formas paralelas no puede comprobarse directamente debido al carácter inobservable de las puntuaciones verdaderas. Nuestra propuesta pretende superar algunas de las limitaciones de los métodos tradicionales utilizando el esquema del Funcionamiento Diferencial del Item. Método: cambiamos el objeto de la comparación de las puntuaciones totales a cada uno de los ítems individuales. Analizamos las puntuaciones de un único grupo de participantes en ítems paralelos diseñados para medir los mismos criterios comportamentales. Ejemplificamos la propuesta con las respuestas de 527 participantes a las dos formas paralelas de la “Attention Deficit-Hyperactivity Disorder Scale” (Caterino, Gómez-Benito, Balluerka, Amador-Campos, & Stock, 2009).Resultados: 12 de los 18 ítems (66,6%) muestran valores de probabilidad asociados con el estadístico Mantel χ2 menores de .01. El procedimiento de Estandarización muestra que la mitad de los ítems con DIF favorecen a la Forma A y la otra mitad a la Forma B. Conclusiones: el procedimiento “differential functioning of behavioral indicators” (DFBI) puede aportar información única sobre el paralelismo entre parejas de ítems complementando el análisis tradicional de la equivalencia de formas paralelas.This study was partially funded by the Andalusia Regional Government under the Excellent Research Fund (Project nº SEJ- 6569, Project nº SEJ-5188), and the Agency for the Management of University and Research Grant of the Government of Catalonia (2014 SGR-1139)

An Interface Agent for the Management of COTS-based User Interfaces

The great development of the knowledge society on the Internet requires that Web information systems are adapted at runtime to user groups with common interests. Interface agents help us to observe and learn from user preferences making interfaces adaptable to user working habits. We propose an interface agent which works on Web interface based on COTS components, adapting the interface to the user needs or preferences. Our agent runs two main behaviors: observation behavior which analyses the user interaction on the interface and a second behavior which runs the adaptation actions to adapt the user interface at runtime

Data analysis and tools applied to modeling and simulation of a PV system in Ecuador

This paper presents a research was carried out for the management of a photovoltaic system in a Microgrid, with applications and the use of tools applied to modeling and computational simulation in the Microgrid laboratory implanted in the facilities of the University of Cuenca (Ecuador). Additionally, through the use of automatic learning techniques, the behavior of the photovoltaic system has been modeled in the study area based on radiation and temperature with very good results. In addition, several applications can be made in real engineering studies such as feasibility, performance analysis, energy estimation, educational models, etc