Modelado de canales MIMO 2x2 de banda ancha en interiores

A stochastic 2x2 MIMO wideband channel modelling method is presented. This channel model uses tapped delay lines (TDL) to model the subchannels and a single channel spatial correlation matrix to introduce the statistical dependence. This model represents a novel simplification with respect to other wideband MIMO models. The channel models obtained from this method are accurate and computationally efficient. Using this method channel models of indoor scenarios are obtained. The results show that the simulated channels provides channel capacity results similar to the measured ones

Análisis de la correlación de canales MIMO en interiores a 2 y 2.4 GHz

This paper presents an experimental analysis of the spatial correlation between MIMO subchannels, analyzing the various factors which affect the correlation, such as the type of scenario, topology of the arrays and the relative position between them. The results show a great variability in the correlation coefficient as a function of the distance between the elements. Thus, a statistical characterization of the correlation coefficient is performed

Analysis of massive MIMO performance in an indoor picocell with high number of users

This paper presents an analysis of the massive multiple input and multiple output (MIMO) channel in an indoor picocell with a high number of active user terminals and a base station consisting of a virtual array with up to one hundred elements. The analysis is based on the results of a measurement campaign carried out in the 3.2 to 4 GHz band in a scenario of reduced size and with a symmetrical geometry, in which users are also placed in an orderly manner. The channel meets the condition of favorable propagation depending on several factors, one of the most important being the spatial distribution of users. Results concerning the inverse condition number as well as the channel sum capacity are included. Another factor that determines the performance of massive MIMO systems when operated in an orthogonal frequency division multiplexing (OFDM) framework is the frequency selectivity of the channel that limits the size of the coherence block (ChB). Focusing on the most significant results achieved, it can be concluded that the channel reaches a capacity of 89% with respect to an i.i.d. Rayleigh channel. Concerning the cumulative distribution function (CDF) of the sum capacity, it can also be observed that the tails are not very pronounced, which indicates that a homogeneous service can be given to all users. Regarding the number of samples that make up the ChB, although it is high in all cases (of the order of tens of thousands), it strongly depends on the degree of correlation used to calculate the coherence bandwidth.This work was supported in part by the Spanish Ministerio de Economía, Industria y Competitividad, under Grant TEC2017-86779-C2-1-R, in part by the European economic community (EEC) through Fondo Europeo de Desarrollo Regional (FEDER) funds, and in part by the Spanish Ministerio de Ciencia e Innovación under Grant UCAN08-4E-010

Differential effects of dolutegravir, bictegravir and raltegravir in adipokines and inflammation markers on human adipocytes

Altres ajuts: European Regional Development Fund (FEDER); Gilead. European Union NextGeneration EU/PRTR.Aims: To assess the potential direct effects of the integrase strand-transfer inhibitors (INsTIs) dolutegravir, bictegravir, and raltegravir, drugs used as treatment for people living with human immunodeficiency virus (PLWH), on human adipose cells. Main methods: Drugs were added to the differentiation medium of human Simpson-Golabi-Behmel syndrome (SGBS) adipose cells and morphological adipogenesis was monitored for 10 days. Also, adipocytes were exposed to drugs following differentiation (day 14). The gene expression levels of selected adipogenesis markers, adipocyte metabolism markers, adipokines, and cytokines were determined by quantitative-reverse transcription polymerase-chain reaction. The release of adiponectin and leptin into the culture medium was measured using specific enzyme-linked immunosorbent assay, and release of interleukin-6 and chemokine (C[sbnd]C motif) ligand-2 using Multiplex assays. Key findings: Overall morphological adipogenesis was unaltered by INsTIs. The expression of adipogenesis marker genes (peroxisome proliferator-activated receptor-Ɣ and lipoprotein lipase) was slightly reduced in dolutegravir-treated differentiating adipocytes. Bictegravir repressed gene expression and the release of pro-inflammatory cytokines in differentiating adipocytes. Dolutegravir and raltegravir increased interleukin-6 gene expression, but only dolutegravir increased interleukin-6 release. Dolutegravir repressed adiponectin expression and release in differentiating adipocytes and had a similar but milder effect on leptin. Drug treatment of mature adipocytes reduced adiponectin gene expression in response to dolutegravir. Significance: The INsTIs studied do not have a significant effect on human adipose cell differentiation but exert distinct effects on gene expression and secretion of adipokines and cytokines. These findings will help understand and manage the effects of INsTI-containing treatments on body weight and metabolic dysregulation in PLWH

An approach for the design of infrastructure mode indoor WLAN based on ray tracing and a binary optimizer

This paper presents an approach that combines a ray tracing tool with a binary version of the particle swarm optimization method (BPSO) for the design of infrastructure mode indoor wireless local area networks (WLAN). The approach uses the power levels of a set of candidate access point (AP) locations obtained with the ray tracing tool at a mesh of potential receiver locations or test points to allow the BPSO optimizer to carry out the design of the WLAN. For this purpose, several restrictions are imposed through a fitness function that drives the search towards the selection of a reduced number of AP locations and their channel assignments, keeping at the same time low transmission power levels. During the design, different coverage priority areas can be defined and the signal to interference ratio (SIR) levels are kept as high as possible in order to comply with the Quality of Service (QoS) requirements imposed. The performance of this approach in a real scenario at the author´s premises is reported, showing its usefulness.This work was supported by the Spanish Ministry of Science and Innovation (TEC2008-02730) and the Spanish Ministry of Economy and Competitiveness (TEC2012-33321)

Coverage optimization and power reduction in SFN using simulated annealing

An approach that predicts the propagation, models the terrestrial receivers and optimizes the performance of single frequency networks (SFN) for digital video broadcasting in terms of the final coverage achieved over any geographical region, enhancing the most populated areas, is proposed in this paper. The effective coverage improvement and thus, the self-interference reduction in the SFN is accomplished by optimizing the internal static delays, sector antenna gain, and both azimuth and elevation orientation for every transmitter within the network using the heuristic simulated annealing (SA) algorithm. Decimation and elevation filtering techniques have been considered and applied to reduce the computational cost of the SA-based approach, including results that demonstrate the improvements achieved. Further representative results for two SFN in different scenarios considering the effect on the final coverage of optimizing any of the transmitter parameters previously outlined or a combination of some of them are reported and discussed in order to show both, the performance of the method and how increasing gradually the complexity of the model for the transmitters leads to more realistic and accurate results.This work was supported by the Spanish Ministry of Science and Innovation under Projects TEC2008-02730 and TEC2012-33321. The work of M. Lanza and Á. L. Gutiérrez was supported by a Pre-Doctoral Grant from the University of Cantabria

Caracterización y modelado de canales BFWA en entornos OUTDOOR – INDOOR

This paper presents the experimental characterization of the radio channel for outdoor-indoor communications, within the frame of Fixed Wireless Access systems. The obtained results show that the presence of line of sight minimizes the influence of the scatters that surrounds the receiver, contributing to delay spread values lower than in the non line of sigth situations. In order to reproduce the behavior of these kind of channels several models based on tapped delay lines have been developed. These models provide a good fit of the temporal channel parameters and can be useful to complete the channel collections of current and future standards

Empirical characterization of the indoor radio channel for array antenna systems in the 3 to 4 GHz frequency band

Concerning the design and planning of new radio interfaces for the fifth-generation (5G) systems, this paper presents a useful contribution to the characterization of the wideband indoor radio channel in the 3-4-GHz frequency band. A measurement campaign has been carried out in two different indoor scenarios to analyze some of the most important wideband parameters of the propagation channel, including a thorough analysis of its behavior to meet the new radio technology challenges. The channel measurement setup consists of a virtual vertical uniform array at the receiver side of the link that remains at a fixed position, whereas the transmitter side, which is equipped with a single antenna, is placed at different positions in the environment under analysis. The measurement setup emulates the up-link of a multi-user multiple-input multiple-output (MIMO) system and allows obtaining the broadband parameters of the multiple channels that are established between the transmitter and each one of the antennas of the receiver array. The results and conclusions about the path loss, temporal dispersion, and coherence bandwidth are included, along with an analysis of the spatial correlation between wideband channels when one of the antennas is an array.This work was supported by the Spanish Ministerio de Economía, Industria y Competitividad under Project TEC2017-86779-C2-1-R and Project TEC2017-86779-C2-2-R

Optimización heurística de la asignación de canales en redes WIFI

A planning tool that combines the strengths of a propagation prediction tool, CINDOOR, and a particle swarm optimization algorithm (PSO) is presented in this work when applied to optimize wireless networks resources prior to their deployment. For an arbitrary scenario, the approach proposed performs channel allocation, choosing the best set of access points (AP) to be used, including their activation or deactivation to meet a required quality of service (QoS). The CINDOOR software tool provides the heuristic method with data regarding the signal level and delay at each potential receiver point inside a meshed area, associated with any of the potential AP considered. Then, a stochastic binary PSO algorithm is used to meet the following requirements altogether: minimize the interference, maximize the signal-to-interference ratio (SIR) and activate as few AP as possible to maximize the coverage area and reduce interferences. Representative results are included, showing the usefulness of the approach proposed for a real wireless network, considering a certain QoS