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Do Savant Syndrome and Autism Spectrum Disorders Share Sex Differences? A Comprehensive Review
Navarro-Pardo Esperanza,Alonso-Esteban Yurena,Alcantud-Marín Francisco,Murphy Mike 대한소아청소년 정신의학회 2023 소아청소년정신의학 Vol.34 No.2
Savant syndrome was described before autism. However, they soon became closely associated, as many of their symptoms (intellectual disability, repetitive behaviors, alterations in social communication, and islets of abilities) overlap. Only a few women with autism have been diagnosed with savant syndrome. The theories or hypotheses that attempt to explain savant syndrome, which are common in autism, present differential treatment according to sex. We postulate that savant syndrome associated with autism as well as autism in general is underdiagnosed in women.
Depth-of-Field Enhancement in Integral Imaging by Selective Depth-Deconvolution
Navarro, Hector,Saavedra, Genaro,Martinez-Corral, Manuel,Sjostrom, Marten,Olsson, Roger IEEE 2014 Journal of display technology Vol.10 No.3
<P>One of the major drawbacks of the integral imaging technique is its limited depth of field. Such limitation is imposed by the numerical aperture of the microlenses. In this paper, we propose a method to extend the depth of field of integral imaging systems in the reconstruction stage. The method is based on the combination of deconvolution tools and depth filtering of each elemental image using disparity map information. We demonstrate our proposal presenting digital reconstructions of a 3-D scene focused at different depths with extended depth of field.</P>
Extended Analysis of the <tex> $Z^{2}$</tex> -FET: Operation as Capacitorless eDRAM
Navarro, Carlos,Lacord, Joris,Parihar, Mukta Singh,Adamu-Lema, Fikru,Duan, Meng,Rodriguez, Noel,Cheng, Binjie,El Dirani, Hassan,Barbe, Jean-Charles,Fonteneau, Pascal,Bawedin, Maryline,Millar, Campbell Institute of Electrical and Electronics Engineers 2017 IEEE transactions on electron devices Vol.64 No.11
<P>The Z(2)-FET operation as capacitorless DRAM is analyzed using advanced 2-D TCAD simulations for IoT applications. The simulated architecture is built based on actual 28-nm fully depleted silicon-on-insulator devices. It is found that the triggering mechanism is dominated by the front-gate bias and the carrier's diffusion length. As in other FB-DRAMs, the memory window is defined by the ON voltage shift with the stored body charge. However, the Z(2)-FET's memory state is not exclusively defined by the inner charge but also by the reading conditions.</P>
High performance low power CMOS dynamic logic for arithmetic circuits
Navarro-Botello, V.,Montiel-Nelson, J.A.,Nooshabadi, S. Elsevier 2007 Microelectronics Journal Vol.38 No.4
This paper presents the design of high performance and low power arithmetic circuits using a new CMOS dynamic logic family, and analyzes its sensitivity against technology parameters for practical applications. The proposed dynamic logic family allows for a partial evaluation in a computational block before its input signals are valid, and quickly performs a final evaluation as soon as the inputs arrive. The proposed dynamic logic family is well suited to arithmetic circuits where the critical path is made of a large cascade of inverting gates. Furthermore, circuits based on the proposed concept perform better in high fanout and high switching frequencies due to both lower delay and dynamic power consumption. Experimental results, for practical circuits, demonstrate that low power feature of the propose dynamic logic provides for smaller propagation time delay (3.5 times), lower energy consumption (55%), and similar combined delay, power consumption and active area product (only 8% higher), while exhibiting lower sensitivity to power supply, temperature, capacitive load and process variations than the dynamic domino CMOS technologies.
<tex> ${Z}^{\textsf {2}}$</tex> -FET as Capacitor-Less eDRAM Cell For High-Density Integration
Navarro, Carlos,Duan, Meng,Parihar, Mukta Singh,Adamu-Lema, Fikru,Coseman, Stefan,Lacord, Joris,Lee, Kyunghwa,Sampedro, Carlos,Cheng, Binjie,El Dirani, Hassan,Barbe, Jean-Charles,Fonteneau, Pascal,Kim Institute of Electrical and Electronics Engineers 2017 IEEE transactions on electron devices Vol.64 No.12
<P>2-D numerical simulations are used to demonstrate the <TEX>${Z}^{\textsf {2}}$</TEX>-FET as a competitive embedded capacitor-less dynamic random access memory cell for low-power applications. Experimental results in 28-nm fully depleted-silicon on insulator technology are used to validate the simulations prior to downscaling tests. Default scaling, without any structure optimization, and enhanced scaling scenarios are considered before comparing the bit cell area consumption and integration density with other eDRAM cells in the literature.</P>
Navarro, H.,Yang, Ilkyu,Sirena, M.,Kim, Jeehoon,Haberkorn, N. American Institute of Physics 2015 Journal of Applied Physics Vol.118 No.4
<P>The optimization of the superconducting properties in a bottom electrode and the quality of an insulator barrier are the first steps in the development of superconductor/insulator/superconductor tunnel junctions. Here, we study the quality of a BaTiO3 tunnel barrier deposited on a 16 nm thick GdBa2Cu3O7-delta thin film by using conductive atomic force microscopy. We find that the tunnel current is systematically reduced (for equal applied voltage) by increasing the BaTiO3 barrier thickness between 1.6 and 4 nm. The BaTiO3 layers present an energy barrier of approximate to 1.2 eV and an attenuation length of 0.35-0.5 nm (depending on the applied voltage). The GdBa2Cu3O7-delta electrode is totally covered by a BaTiO3 thickness above 3 nm. The presence of ferroelectricity was verified by piezoresponse force microscopy for a 4 nm thick BaTiO3 top layer. The superconducting transition temperature of the bilayers is systematically suppressed by increasing the BaTiO3 thickness. This fact can be associated with stress at the interface and a reduction of the orthorhombicity of the GdBa2Cu3O7-delta. The reduction in the orthorhombicity is expected by considering the interface mismatch and it can also be affected by reduced oxygen stoichiometry (poor oxygen diffusion across the BaTiO3 barrier). (C) 2015 AIP Publishing LLC.</P>
Three-Dimensional Imaging and Display through Integral Photography
Navarro, Hector,Dorado, Adrian,Saavedra, Genaro,Corral, Manuel Martinez The Korea Institute of Information and Commucation 2014 Journal of information and communication convergen Vol.12 No.2
Here, we present a review of the proposals and advances in the field of three-dimensional (3D) imaging acquisition and display made in the last century. The most popular techniques are based on the concept of stereoscopy. However, stereoscopy does not provide real 3D experience, and produces discomfort due to the conflict between convergence and accommodation. For this reason, we focus this paper on integral imaging, which is a technique that permits the codification of 3D information in an array of 2D images obtained from different perspectives. When this array of elemental images is placed in front of an array of microlenses, the perspectives are integrated producing 3D images with full parallax and free of the convergence-accommodation conflict. In the paper we describe the principles of this technique, together with some new applications of integral imaging.
Navarro-Franco, Javier A.,Garzon-Zuniga, Marco A.,Drogui, Patrick,Buelna, Gerardo,Gortares-Moroyoqui, Pablo,Barragan-Huerta, Blanca E.,Vigueras-Cortes, Juan M. The Korean Electrochemical Society 2022 Journal of electrochemical science and technology Vol.13 No.1
Persistent organic pollutants (POPs) and emerging pollutants (EP) are characterized by their difficulty to be removed through biological oxidation processes (BOPs); they persist in the environment and could have adverse effects on the aquatic ecosystem and human health. The electro-oxidation (EO) process has been successfully used as an alternative technique to oxidize many kinds of the aforementioned pollutants in wastewater. However, the EO process has been criticized for its high energy consumption cost and its potential generation of by-products. In order to decrease these drawbacks, its combination with biological oxidation processes has been reported as a solution to reduce costs and to reach high rates of recalcitrant pollutants removal from wastewaters. Thus, the location of EO in the treatment line is an important decision to make, since this decision affects the formation of by-products and biodegradability enhancement. This paper reviews the advantages and disadvantages of EO as a pre and post-treatment in combination with BOPs. A perspective of the EO scale-up is also presented, where hydrodynamics and the relationship of A/V (area of the electrode/working volume of the electrochemical cell) experiments are examined and discussed.
Vicente Navarro,Laura Asensio,Heidar Gharbieh,Gema De la Morena,Veli-Matti Pulkkanen 한국원자력학회 2019 Nuclear Engineering and Technology Vol.51 No.4
This work describes the development of a numerical module with a multiphysics structure to simulatethe thermo-hydro-chemo-mechanical behavior of compacted bentonites. First, the conceptual model,based on the state-of-the-art formulation for clay-based engineered barriers in deep geological repositories,is described. Second, the advantages of multiphysics-based modules are highlighted. Then, theguidelines to develop a code using such tools are outlined, presenting an example of implementation. Finally, the simulation of three tests that illustrate the behavior of compacted bentonites assesses thescope of the developed code. The satisfactory results obtained, and the relative simplicity of implementation,show the opportunity of the modeling strategy proposed
Andrea Navarro-Puyuelo,Inés Reyero,Ainara Moral,Fernando Bimbela,Miguel A. Bañares,Luis M. Gandía 한국공업화학회 2019 Journal of Industrial and Engineering Chemistry Vol.80 No.-
Dry reforming and partial oxidation of biogas were studied using 0.5 wt.% Rh/Al2O3 catalysts, both inhouseprepared and commercial. The effects of O2 addition on syngas yield and biogas conversion werestudied at 700 C using different O2/CH4 ratios in the gas feeding stream: 0 (dry reforming), 0.12, 0.25,0.45 and 0.50. The highest CH4 conversion, H2 yield and H2/CO molar ratio were obtained with an O2/CH4ratio of 0.45, even though simultaneous valorization of both CH4 and CO2 could be best attained when theO2/CH4 ratio was 0.12. Increased biogas conversions and syngas yields were obtained by increasingreaction temperatures between 650 and 750 C. A detrimental influence on catalytic activity could beobserved when the catalyst was subjected to calcination. Increasing the hold time of the thermalconditioning of the catalyst under inertflow altered Rh dispersion, though had no significant impact oncatalyst performance in the dry reforming of methane at 700 C and 150 N L CH4/(gcat h). Characterizationof spent samples after reaction by Raman spectroscopy revealed the presence of carbonaceous deposits ofdifferent nature, especially on the commercial (named as Rh com) and calcined (Rh calc) catalysts, thoughoxygen addition in the biogas feed significantly reduced the amount of these deposits. The Rh catalyststhat had not been calcined after impregnation (Rh prep) did not present any noticeable characteristicpeaks in the G and D bands. In particular, scanning transmission electron microscopy (STEM) images ofthe spent Rh prep sample revealed the presence of very highly dispersed Rh nanoparticles after reaction,of particle sizes of about 1 nm, and no noticeable C deposits. Combined oxy-CO2 reforming of biogas usinghighly dispersed and low metal-loading Rh/Al2O3 catalysts with low O2 dosage in the reactor feed can beused to effectively transform biogas into syngas.