Your search keyword '"Fernando Brambila"' showing total 20 results

1. Almost everywhere continuity of conditional expectations

Author

Alberto Alonso and Fernando Brambila-Paz

Subjects

Conditional expectations, probability, Applied mathematics. Quantitative methods, T57-57.97, Mathematics, QA1-939

Abstract

A necessary and sufficient condition on a sequence ${\{{\mathcal{A}_{n}}\}_{n\in \mathbb{N}}}$ of σ-subalgebras which assures convergence almost everywhere of conditional expectations for functions in ${L^{\infty }}$ is given. It is proven that for $f\in {L^{\infty }}(\mathcal{A})$ \[ \mathsf{E}(f|{\mathcal{A}_{n}})\stackrel{a.e.}{\longrightarrow }\mathsf{E}(f|{\mathcal{A}_{\mu a.e.}}).\]

Published

2024

2. Proposal for Use of the Fractional Derivative of Radial Functions in Interpolation Problems

Author

Anthony Torres-Hernandez, Fernando Brambila-Paz, and Rafael Ramirez-Melendez

Subjects

radial basis functions, fractional operators, abelian groups, fractional calculus of sets, Thermodynamics, QC310.15-319, Mathematics, QA1-939, Analysis, QA299.6-433

Abstract

This paper presents the construction of a family of radial functions aimed at emulating the behavior of the radial basis function known as thin plate spline (TPS). Additionally, a method is proposed for applying fractional derivatives, both partially and fully, to these functions for use in interpolation problems. Furthermore, a technique is employed to precondition the matrices generated in the presented problems through QR decomposition. Similarly, a method is introduced to define two different types of abelian groups for any fractional operator defined in the interval [0,1), among which the Riemann–Liouville fractional integral, Riemann–Liouville fractional derivative, and Caputo fractional derivative are worth mentioning. Finally, a form of radial interpolant is suggested for application in solving fractional differential equations using the asymmetric collocation method, and examples of its implementation in differential operators utilizing the aforementioned fractional operators are shown.

Published

2023

3. Energía y medio ambiente. Una mirada desde la Encíclica Laudato Si'

Author

Claudio César Calabrese, Fernando Brambila, Eduardo de la Vega Segura, and Anthony Torres Hernandez

Subjects

Concersión ecológica, Crisis de la cultura, Francisco, Petróleo, Practical Theology, BV1-5099, Doctrinal Theology, BT10-1480

Abstract

Nuestro trabajo plantea los aspectos que consideramos medulares de la Encíclica, en especial la unidad economía-sociedad-ecología, tomando como idea central la noción de “conversión ecológica” y, a partir de ésta, los límites de crecimiento de una civilización basada fundamentalmente en petróleo. Esto se debe a que los niveles de consumo encontrarán rápidamente la barrera de la propia naturaleza, pues la humanidad habrá consumido la mayor parte de los combustibles fósiles, a fines del siglo XXI. Se trata, en definitiva, del agotamiento de un ideal de ciencia y de progreso que no ha podido sostener las promesas del modelo ilustrado que las generó. En este contexto, presentamos las catástrofes ecológicas ocasionadas por derrames de petróleo en el último decenio y los aspectos positivos y negativos de los últimos procedimientos en extracción de petróleo; a pesar de estos esfuerzos y de la integración de energías renovables, la ecología en clave cristiana requiere de una renovación interior que lleve a una conciencia más plena del hombre como colaborar y custodio de la creación. Abstract: Our work raises the aspects that we consider to be central to the Encyclical, especially the unity between economy-society-ecology, taking as a central idea the notion of "ecological conversion" and, from this, the limits of growth of a civilization fundamentally based on oil. This is because consumption levels will quickly meet the barrier of nature itself, since humanity will have consumed most of the fossil fuels by the end of the 21st century. It is, in short, the exhaustion of an ideal of science and progress that has failed to keep the promises of the enlightened model in which it was born. In this context, we present the ecological catastrophes caused by oil spills in the last decade and the positive and negative aspects of the latest oil extraction procedures; Despite these efforts and the integration of renewable energies, ecology in a Christian key requires an interior renewal that leads to a fuller awareness of man as a collaborator and custodian of creation.

Published

2022

4. Abelian Groups of Fractional Operators

Author

Anthony Torres-Hernandez, Fernando Brambila-Paz, and Rafael Ramirez-Melendez

Subjects

fractional operators, set theory, group theory, fractional calculus of sets, Electronic computers. Computer science, QA75.5-76.95

Abstract

Taking into count the large number of fractional operators that have been generated over the years, and considering that their number is unlikely to stop increasing at the time of writing this paper due to the recent boom of fractional calculus, everything seems to indicate that an alternative that allows to fully characterize some elements of fractional calculus is through the use of sets. Therefore, this paper presents a recapitulation of some fractional derivatives, fractional integrals, and local fractional operators that may be found in the literature, as well as a summary of how to define sets of fractional operators that allow to fully characterize some elements of fractional calculus, such as the Taylor series expansion of a scalar function in multi-index notation. In addition, it is presented a way to define finite and infinite Abelian groups of fractional operators through a family of sets of fractional operators and two different internal operations. Finally, using the above results, it is shown one way to define commutative and unitary rings of fractional operators.

Published

2022

5. Hydrodynamic Border Irrigation Model: Comparison of Infiltration Equations

Author

Sebastián Fuentes, Carlos Chávez, Fernando Brambila-Paz, and Josué Trejo-Alonso

Subjects

infiltration process, modeling water flow, water use efficiency, water deficit, Hydraulic engineering, TC1-978, Water supply for domestic and industrial purposes, TD201-500

Abstract

The variation in moisture content between subsequent irrigations determines the use of infiltration equations that contain representative physical parameters of the soil when irrigation begins. This study analyzes the reliability of the hydrodynamic model to simulate the advanced phase in border irrigation. For the solution of the hydrodynamic model, a Lagrangian scheme in implicit finite differences is used, while for infiltration, the Kostiakov equation and the Green and Ampt equation are used and compared. The latter was solved using the Newton–Raphson method due to its implicit nature. The models were validated, and unknown parameters were optimized using experimental data available in the literature and the Levenberg–Marquardt method. The results show that it is necessary to use infiltration equations based on soil parameters, because in subsequent irrigations, the initial conditions change, modifying the advance curve in border irrigation. From the coupling of both equations, it is shown that the empirical Kostiakov equation is only representative for a specific irrigation event, while with the Green and Ampt equations, the subsequent irrigations can be modeled, and the advance/infiltration process can be observed in detail.

Published

2022

6. Spatial Fractional Darcy’s Law on the Diffusion Equation with a Fractional Time Derivative in Single-Porosity Naturally Fractured Reservoirs

Author

Fernando Alcántara-López, Carlos Fuentes, Rodolfo G. Camacho-Velázquez, Fernando Brambila-Paz, and Carlos Chávez

Subjects

Weyl fractional derivative, Caputo fractional derivative, fractal porous media, naturally fractured reservoir, Technology

Abstract

Due to the complexity imposed by all the attributes of the fracture network of many naturally fractured reservoirs, it has been observed that fluid flow does not necessarily represent a normal diffusion, i.e., Darcy’s law. Thus, to capture the sub-diffusion process, various tools have been implemented, from fractal geometry to characterize the structure of the porous medium to fractional calculus to include the memory effect in the fluid flow. Considering infinite naturally fractured reservoirs (Type I system of Nelson), a spatial fractional Darcy’s law is proposed, where the spatial derivative is replaced by the Weyl fractional derivative, and the resulting flow model also considers Caputo’s fractional derivative in time. The proposed model maintains its dimensional balance and is solved numerically. The results of analyzing the effect of the spatial fractional Darcy’s law on the pressure drop and its Bourdet derivative are shown, proving that two definitions of fractional derivatives are compatible. Finally, the results of the proposed model are compared with models that consider fractal geometry showing a good agreement. It is shown that modified Darcy’s law, which considers the dependency of the fluid flow path, includes the intrinsic geometry of the porous medium, thus recovering the heterogeneity at the phenomenological level.

Published

2022

7. Fractional Growth Model with Delay for Recurrent Outbreaks Applied to COVID-19 Data

Author

Fernando Alcántara-López, Carlos Fuentes, Carlos Chávez, Jesús López-Estrada, and Fernando Brambila-Paz

Subjects

multiple outbreaks, time delay, Caputo fractional derivative, Gompertz model, logistic model, Mathematics, QA1-939

Abstract

There are a great many epidemiological models that have been implemented to describe COVID-19 data; however, few attempted to reproduce the entire phenomenon due to the complexity of modeling recurrent outbreaks. In this work a fractional growth model with delay is developed that implements the Caputo fractional derivative with 0<β≤1. Furthermore, in order to preserve the nature of the phenomenon and ensure continuity in the derivatives of the function, a method is proposed to construct an initial condition function to implement in the model with delay. This model is analyzed and generalized to model recurrent outbreaks. The model is applied to fit data of cumulative confirmed cases from Mexico, the United States, and Russia, obtaining excellent fitting corroborated by the coefficient of determination, where R2>0.9995 in all cases. Lastly, as a result of the implementation of the delay effect, the global phenomenon was decomposed into its local parts, allowing for directly comparing each outbreak and its different characteristics.

Published

2022

8. Fractional Growth Model Applied to COVID-19 Data

Author

Fernando Alcántara-López, Carlos Fuentes, Carlos Chávez, Fernando Brambila-Paz, and Antonio Quevedo

Subjects

fractional Caputo derivative, sigmoidal function, Gompertz model, logistic model, Mathematics, QA1-939

Abstract

Growth models have been widely used to describe behavior in different areas of knowledge; among them the Logistics and Gompertz models, classified as models with a fixed inflection point, have been widely studied and applied. In the present work, a model is proposed that contains these growth models as extreme cases; this model is generalized by including the Caputo-type fractional derivative of order 0<β≤1, resulting in a Fractional Growth Model which could be classified as a growth model with non-fixed inflection point. Moreover, the proposed model is generalized to include multiple sigmoidal behaviors and thereby multiple inflection points. The models developed are applied to describe cumulative confirmed cases of COVID-19 in Mexico, US and Russia, obtaining an excellent adjustment corroborated by a coefficient of determination R2>0.999.

Published

2021

9. Quasi-Analytical Model of the Transient Behavior Pressure in an Oil Reservoir Made Up of Three Porous Media Considering the Fractional Time Derivative

Author

Fernando Alcántara-López, Carlos Fuentes, Fernando Brambila-Paz, and Jesús López-Estrada

Subjects

porous media, Darcy law, well test analysis, triple porosity, Tartaglia–Cardano equations, Caputo time derivative, Applied mathematics. Quantitative methods, T57-57.97, Mathematics, QA1-939, Electronic computers. Computer science, QA75.5-76.95

Abstract

The present work proposes a new model to capture high heterogeneity of single phase flow in naturally fractured vuggy reservoirs. The model considers a three porous media reservoir; namely, fractured system, vugular system and matrix; the case of an infinite reservoir is considered in a full-penetrating wellbore. Furthermore, the model relaxes classic hypotheses considering that matrix permeability has a significant impact on the pressure deficit from the wellbore, reaching the triple permeability and triple porosity model wich allows the wellbore to be fed by all the porous media and not exclusively by the fractured system; where it is considered a pseudostable interporous flow. In addition, it is considered the anomalous flow phenomenon from the pressure of each independent porous medium and as a whole, through the temporal fractional derivative of Caputo type; the resulting phenomenon is studied for orders in the fractional derivatives in (0, 2), known as superdiffusive and subdiffusive phenomena. Synthetic results highlight the effect of anomalous flows throughout the entire transient behavior considering a significant permeability in the matrix and it is contrasted with the effect of an almost negligible matrix permeability. The model is solved analytically in the Laplace space, incorporating the Tartaglia–Cardano equations.

Published

2020

10. Relating Hydraulic Conductivity Curve to Soil-Water Retention Curve Using a Fractal Model

Author

Carlos Fuentes, Carlos Chávez, and Fernando Brambila

Subjects

areal porosity, volumetric porosity, fractal area-volume relationship, tortuosity factor, joint probability, Mathematics, QA1-939

Abstract

In the study of water transference in soil according to Darcy law, the knowledge of hydrodynamic characteristics, formed by the water retention curve θ(ψ), and the hydraulic conductivity curve K(ψ) are of great importance. The first one relates the water volumetric content (θ) with the water-soil pressure (ψ); the second one, the hydraulic conductivity (K) with the water-soil pressure. The objective of this work is to establish relationships between both curves using concepts of probability theory and fractal geometry in order to reduce the number of unknown functions. The introduction of four definitions used at the literature of the pore effective radius that is involve in the general model has permitted to establish four new specials models to predict the relative hydraulic conductivity. Some additional considerations related to the definitions of flow effective area and the tortuosity factor have allow us to deduce four classical models that are extensively used in different studies. In particular, we have given some interpretations of its empirical parameters in the fractal geometry context. The resulting functions for hydrodynamic characteristics can be utilized in many studies of water movement in the soil.

Published

2020

11. Abelian Groups of Fractional Operators

Author

A. Torres-Hernandez, Fernando Brambila, and Rafael Ramirez-Melendez

Published

2022

12. How Surface Irrigation Contributes to Climate Change Resilience—A Case Study of Practices in Mexico

Author

Carlos Chávez, Sebastián Fuentes, Carlos Fuentes, Fernando Brambila-Paz, and Josué Trejo-Alonso

Subjects

Renewable Energy, Sustainability and the Environment, Geography, Planning and Development, Building and Construction, Management, Monitoring, Policy and Law, analytic equation, water use efficiency, Saint-Venant equations, optimal discharge

Abstract

Climate change has brought increased temperatures and decreased rainfall on a global scale; however, population growth requires greater volumes of water and food each year that must be supplied in one way or another. In Mexico, application efficiencies in gravity irrigation are below 50%. Although in recent years the decision has been made to change to pressurized irrigation systems to increase the efficiency of water use, border or furrow irrigation is still the most widely used in agriculture. In this work, we show that with a methodology developed and applied in these systems, application efficiencies greater than 90% were obtained, while the Water Use Efficiency (WUE) increased by 27, 38 and 47% for the three crops where it was applied: sorghum, barley, and corn, respectively. Irrigation times per hectare and applied irrigation depths decreased by more than 30%, representing increased irrigation efficiencies and WUE. Finally, the water savings obtained can mitigate water scarcity in cities.

Published

2022

13. Quasi-Analytical Model of the Transient Behavior Pressure in an Oil Reservoir Made Up of Three Porous Media Considering the Fractional Time Derivative

Author

Carlos Fuentes, Jesús López-Estrada, Fernando Brambila-Paz, and Fernando Alcántara-López

Subjects

Materials science, Darcy's law, Tartaglia–Cardano equations, Laplace transform, lcsh:T57-57.97, lcsh:Mathematics, Applied Mathematics, Darcy law, General Engineering, Mechanics, lcsh:QA1-939, Petroleum reservoir, lcsh:QA75.5-76.95, Fractional calculus, Computational Mathematics, Permeability (earth sciences), porous media, lcsh:Applied mathematics. Quantitative methods, Time derivative, well test analysis, lcsh:Electronic computers. Computer science, triple porosity, Porous medium, Porosity, Caputo time derivative

Abstract

The present work proposes a new model to capture high heterogeneity of single phase flow in naturally fractured vuggy reservoirs. The model considers a three porous media reservoir, namely, fractured system, vugular system and matrix, the case of an infinite reservoir is considered in a full-penetrating wellbore. Furthermore, the model relaxes classic hypotheses considering that matrix permeability has a significant impact on the pressure deficit from the wellbore, reaching the triple permeability and triple porosity model wich allows the wellbore to be fed by all the porous media and not exclusively by the fractured system, where it is considered a pseudostable interporous flow. In addition, it is considered the anomalous flow phenomenon from the pressure of each independent porous medium and as a whole, through the temporal fractional derivative of Caputo type, the resulting phenomenon is studied for orders in the fractional derivatives in (0, 2), known as superdiffusive and subdiffusive phenomena. Synthetic results highlight the effect of anomalous flows throughout the entire transient behavior considering a significant permeability in the matrix and it is contrasted with the effect of an almost negligible matrix permeability. The model is solved analytically in the Laplace space, incorporating the Tartaglia&ndash, Cardano equations.

Published

2020

14. Fractional Growth Model Applied to COVID-19 Data

Author

Antonio Quevedo, Carlos Chávez, Carlos Fuentes, Fernando Brambila-Paz, and Fernando Alcántara-López

Subjects

2019-20 coronavirus outbreak, Work (thermodynamics), Coronavirus disease 2019 (COVID-19), General Mathematics, Gompertz function, Gompertz model, Sigmoid function, Growth model, Fractional calculus, sigmoidal function, Inflection point, fractional Caputo derivative, QA1-939, Computer Science (miscellaneous), Applied mathematics, Engineering (miscellaneous), Mathematics, logistic model

Abstract

Growth models have been widely used to describe behavior in different areas of knowledge, among them the Logistics and Gompertz models, classified as models with a fixed inflection point, have been widely studied and applied. In the present work, a model is proposed that contains these growth models as extreme cases, this model is generalized by including the Caputo-type fractional derivative of order 0&lt, β≤1, resulting in a Fractional Growth Model which could be classified as a growth model with non-fixed inflection point. Moreover, the proposed model is generalized to include multiple sigmoidal behaviors and thereby multiple inflection points. The models developed are applied to describe cumulative confirmed cases of COVID-19 in Mexico, US and Russia, obtaining an excellent adjustment corroborated by a coefficient of determination R2&gt, 0.999.

Published

2021

15. Fractional derivative-based performance analysis of hybrid thermoelectric generator-concentrator photovoltaic system

Author

Eduardo De-la-Vega, Pedro M. Rodrigo, Fernando Brambila-Paz, and Anthony Torres-Hernandez

Subjects

Mean squared error, Computer science, 020209 energy, Photovoltaic system, Energy Engineering and Power Technology, 02 engineering and technology, Industrial and Manufacturing Engineering, Fractional calculus, Power (physics), Thermoelectric generator, 020401 chemical engineering, Hybrid system, Waste heat, 0202 electrical engineering, electronic engineering, information engineering, Electronic engineering, 0204 chemical engineering, Energy (signal processing)

Abstract

Concentrator photovoltaic systems get the highest conversion efficiencies among all solar applications. However, they need to increase their efficiency even more to compete with traditional photovoltaic systems. The hybridization with thermoelectric generators allows recovering part of the waste heat and converting it to electricity, enhancing the global efficiency. The physical model of hybrid thermoelectric-concentrator photovoltaic module involves five non-linear equations. In this paper, two adapted Newton-Raphson methods using fractional derivatives are developed to solve such non-linear system, one using the conformable derivative operator and the other using the Riemann-Liouville fractional derivative. Both methods are mathematically innovative and are applied within the photovoltaic field for the first time. They can be used in energy prediction or in design optimisation. As an example of application, one month of real atmospheric data from Jaen, Southern Spain, were processed with the help of the developed methods. The performance outputs of the hybrid system were analysed giving interesting findings on their real behaviour, which is largely unknown nowadays. Linear functions dependent on direct normal irradiance can approximate the total generated power with 12.8 W/m2 root mean squared error and, the thermoelectric efficiency with 0.08% error.

Published

2021

16. Exploring Virtual Reality for Neural Rehabilitation and Phobia Treatment

Author

L. A. Oropeza, Rodrigo Montúfar-Chaveznava, O. E. Cabrera, Fernando Brambila-Paz, Daniel Vargas-Herrera, and Ivette Caldelas

Subjects

Acrophobia, Rehabilitation, Arachnophobia, medicine.medical_treatment, Principal (computer security), Applied psychology, medicine, Virtual reality, medicine.disease, Set (psychology), Head and neck, Psychology, Neurorehabilitation

Abstract

The principal objective of neural rehabilitation therapies is helping affected people to recover their mobility and reduce their dependency to other people in personal and occupational life. The way neural rehabilitation therapies are applied used to be based on the experience of the therapists and the epidemiological data available. Meanwhile, computer games (serious games), specially, based on virtual reality, are already used to treat exclusively certain types of phobia considering that an effective therapy consists on exposing patients to the source of their pathological fear within a controlled and safe environment. At present, at National Autonomous University of Mexico we are developing a set of applications based on videogames technology, programming them by the Unity SDK. The idea is helping patients to recover their mobility, which was lost by a neurological accident, or to confront their phobia. In this work we present the corresponding advances. In the case of neural rehabilitation, we focus the applications for ocular, head and neck recovery, developing some 3D scenarios for the Oculus Rift device. Respect to phobia treatment we consider attending arachnophobia, acrophobia and aviophobia, developing some 3D scenarios for Card Boards and also the Oculus Rift.

Published

2019

17. Fractal Analysis - Applications in Health Sciences and Social Sciences

Author

Fernando Brambila

Subjects

medicine.medical_specialty, business.industry, Public health, Health care, medicine, Sociology, Social science, business, Fractal analysis, Biomedical sciences

Published

2017

18. Fractal Analysis - Applications in Physics, Engineering and Technology

Author

Fernando Brambila

Subjects

Dynamical systems theory, Statistical physics, Fractal analysis, Mathematics

Published

2017

19. Soil Salinity Control in Irrigated Land with Agricultural Drainage Systems

Author

Nami Morales-Durán, Carlos Chávez, Carlos Fuentes, and Fernando Brambila

Subjects

Hydrology, Soil salinity, Agronomy, Agricultural soil science, Environmental science, Environmental impact of agriculture, Dryland salinity, Soil fertility, Watertable control, Soil salinity control, Well drainage

Published

2015

20. Fractional Partial Differential Equations for calculating output oil pressure.

Author

Martìnez, Beatriz Brito and Paz, Fernando Brambila

Subjects

*FRACTIONAL differential equations, *PETROLEUM, *PRESSURE, *PRODUCTION (Economic theory)

Published

2018