2024 |
Rodríguez-Molina, Alejandro; Mejía-de-Dios, Jesús-Adolfo; Mezura-Montes, Efrén Evolutionary Semi-Vectorial Bilevel Optimization in the mechanical and control design of systems Journal Article Engineering Applications of Artificial Intelligence, 133 , pp. 108640, 2024, ISSN: 0952-1976. Abstract | Links | BibTeX | Etiquetas: Controller tuning, Evolutionary computation, Four-bar mechanism, Mechanical design, Semi-Vectorial Bilevel Optimization @article{EngineeringApplicationsofArtificialIntelligenceb, title = {Evolutionary Semi-Vectorial Bilevel Optimization in the mechanical and control design of systems}, author = {Alejandro Rodríguez-Molina and Jesús-Adolfo Mejía-de-Dios and Efrén Mezura-Montes}, url = {https://www.sciencedirect.com/science/article/pii/S095219762400798X}, issn = {0952-1976}, year = {2024}, date = {2024-05-24}, journal = {Engineering Applications of Artificial Intelligence}, volume = {133}, pages = {108640}, abstract = {Many applications require mechanical systems to meet several performance specifications, achieved through the suitable design of their mechanisms and controllers. The mechanical design establishes the parts and components that make up a mechanism to obtain valuable mechanical properties in its motion. Control design, however, aims to ensure that the mechanical system performs its task with the highest possible performance. By their very nature, these design problems can be conceived in a bilevel hierarchical way, where any change in the components of a mechanism to achieve mechanical design goals is affected by the control parameters that govern its behavior, which aim to achieve its own control performance goals. This work develops the simultaneous mechanical and control design of systems under a Semi-Vectorial Bilevel Optimization (SVBO) approach for the first time to study its advantages and drawbacks compared to other design approaches used to date. In this approach, a single-objective mechanical design problem is considered at the upper level, and a multi-objective controller design problem is addressed at the lower level. A proposed Evolutionary Semi-Vectorial Optimizer (ESVO) handles the resulting design model. The approach is tested using two case studies: the mechanical and control design of two four-bar mechanisms, one Grashof and one non-Grashof. The results obtained with the proposed approach are compared with three representative design approaches (manual, multiobjective and sequential). The proposed SVBO approach obtained adequate mechanical design with valuable trade-off between control requirements. The complete approach developed can be extended to tackle concurrent designs of other relevant engineering domains.}, keywords = {Controller tuning, Evolutionary computation, Four-bar mechanism, Mechanical design, Semi-Vectorial Bilevel Optimization}, pubstate = {published}, tppubtype = {article} } Many applications require mechanical systems to meet several performance specifications, achieved through the suitable design of their mechanisms and controllers. The mechanical design establishes the parts and components that make up a mechanism to obtain valuable mechanical properties in its motion. Control design, however, aims to ensure that the mechanical system performs its task with the highest possible performance. By their very nature, these design problems can be conceived in a bilevel hierarchical way, where any change in the components of a mechanism to achieve mechanical design goals is affected by the control parameters that govern its behavior, which aim to achieve its own control performance goals. This work develops the simultaneous mechanical and control design of systems under a Semi-Vectorial Bilevel Optimization (SVBO) approach for the first time to study its advantages and drawbacks compared to other design approaches used to date. In this approach, a single-objective mechanical design problem is considered at the upper level, and a multi-objective controller design problem is addressed at the lower level. A proposed Evolutionary Semi-Vectorial Optimizer (ESVO) handles the resulting design model. The approach is tested using two case studies: the mechanical and control design of two four-bar mechanisms, one Grashof and one non-Grashof. The results obtained with the proposed approach are compared with three representative design approaches (manual, multiobjective and sequential). The proposed SVBO approach obtained adequate mechanical design with valuable trade-off between control requirements. The complete approach developed can be extended to tackle concurrent designs of other relevant engineering domains. |
Aguirre-Fraire, Baldemar; Beltrán, Jessica; Soto-Mendoza, Valeria A comprehensive dataset integrating household energy consumption and weather conditions in a north-eastern Mexican urban city Journal Article Data in Brief, 54 , pp. 110452, 2024, ISSN: 2352-3409. Abstract | Links | BibTeX | Etiquetas: Artificial intelligence, Electricity consumption behaviour, Empirical data collection, Environmental sensing, Forecast, Machine learning, Smart plug, Time series @article{DatainBrief, title = {A comprehensive dataset integrating household energy consumption and weather conditions in a north-eastern Mexican urban city}, author = {Baldemar Aguirre-Fraire and Jessica Beltrán and Valeria Soto-Mendoza}, url = {https://www.sciencedirect.com/science/article/pii/S2352340924004219}, doi = {https://doi.org/10.1016/j.dib.2024.110452}, issn = {2352-3409}, year = {2024}, date = {2024-04-27}, journal = {Data in Brief}, volume = {54}, pages = {110452}, abstract = {The prediction of domestic electricity consumption is relevant because it helps to plan energy production, among many other benefits. In this work a dataset was collected from one house in an urban city of north-east of Mexico. An ad-hoc acquisition system was implemented to collect the data using a smart meter and the open weather API. The data was collected every minute over a period of 14 months since November 5, 2022, to January 5, 2024. The dataset contains 605,260 samples of 19 variables related with energy consumption and weather data. This dataset is specifically tailored for predicting domestic energy consumption and understanding consumption behaviours, filling a void in the existing literature where such datasets for Mexico are scarce. Moreover, the multivariate nature of the dataset allows researchers to investigate and propose new techniques for forecasting or pattern classification using multivariate data collected in a real scenario.}, keywords = {Artificial intelligence, Electricity consumption behaviour, Empirical data collection, Environmental sensing, Forecast, Machine learning, Smart plug, Time series}, pubstate = {published}, tppubtype = {article} } The prediction of domestic electricity consumption is relevant because it helps to plan energy production, among many other benefits. In this work a dataset was collected from one house in an urban city of north-east of Mexico. An ad-hoc acquisition system was implemented to collect the data using a smart meter and the open weather API. The data was collected every minute over a period of 14 months since November 5, 2022, to January 5, 2024. The dataset contains 605,260 samples of 19 variables related with energy consumption and weather data. This dataset is specifically tailored for predicting domestic energy consumption and understanding consumption behaviours, filling a void in the existing literature where such datasets for Mexico are scarce. Moreover, the multivariate nature of the dataset allows researchers to investigate and propose new techniques for forecasting or pattern classification using multivariate data collected in a real scenario. |
Flores-Salgado, Berenice; Gonzalez-Ambriz, Sergio-Jesus; Martínez-García-Moreno, Ciro-Andrés; Beltrán, Jessica IoT-based system for campus community security Journal Article Internet of Things, 26 , pp. 101179, 2024, ISSN: 2542-6605. Abstract | Links | BibTeX | Etiquetas: Campus security, Internet of things, Machine learning, Scream detection @article{InternetofThings, title = {IoT-based system for campus community security}, author = {Berenice Flores-Salgado and Sergio-Jesus Gonzalez-Ambriz and Ciro-Andrés Martínez-García-Moreno and Jessica Beltrán}, url = {https://www.sciencedirect.com/science/article/pii/S2542660524001203}, doi = {https://doi.org/10.1016/j.iot.2024.101179}, issn = {2542-6605}, year = {2024}, date = {2024-04-04}, journal = {Internet of Things}, volume = {26}, pages = {101179}, abstract = {Improving on-campus security measures to ensure the well-being of students and staff results in a significant enhancement in the overall quality of life. This research proposes an Internet of Things (IoT)-based system that leverages sound recognition to detect distress screams and quickly notify a central unit. The system uses an IoT device, Arduino, to collect data from the environment, processes it, and sends the information to a central unit via a cloud IoT service over a Low Power Wide Area Network. The system uses The Things Network and Amazon Web Services platforms to enable communication. The system design considers the resource limitations of Arduino devices and low-power infrastructure. To achieve local detection within the Arduino, several Convolutional Neural Network architectures were compared and evaluated for their effectiveness in scream detection. We evaluated the performance of our models based on accuracy and F1 score, achieving our best results with an accuracy of 95% and an F1 score of 93.4% for the scream class. In addition, the reception coverage in the selected area covers different types of terrain. The results demonstrate the feasibility of implementing an IoT system specifically designed to detect dangerous situations through mobile devices on campus in the surrounding areas.}, keywords = {Campus security, Internet of things, Machine learning, Scream detection}, pubstate = {published}, tppubtype = {article} } Improving on-campus security measures to ensure the well-being of students and staff results in a significant enhancement in the overall quality of life. This research proposes an Internet of Things (IoT)-based system that leverages sound recognition to detect distress screams and quickly notify a central unit. The system uses an IoT device, Arduino, to collect data from the environment, processes it, and sends the information to a central unit via a cloud IoT service over a Low Power Wide Area Network. The system uses The Things Network and Amazon Web Services platforms to enable communication. The system design considers the resource limitations of Arduino devices and low-power infrastructure. To achieve local detection within the Arduino, several Convolutional Neural Network architectures were compared and evaluated for their effectiveness in scream detection. We evaluated the performance of our models based on accuracy and F1 score, achieving our best results with an accuracy of 95% and an F1 score of 93.4% for the scream class. In addition, the reception coverage in the selected area covers different types of terrain. The results demonstrate the feasibility of implementing an IoT system specifically designed to detect dangerous situations through mobile devices on campus in the surrounding areas. |
Saucedo-Zendejo, Felix R; Medrano-Mendieta, Jorge L; Nuñez-Briones, Adriana G A GFDM approach based on the finite pointset method for two-dimensional piezoelectric problems Journal Article Engineering Analysis with Boundary Elements, 163 , pp. 12-22, 2024, ISSN: 0955-7997. Abstract | Links | BibTeX | Etiquetas: Finite pointset method, Meshfree method, Meshless method, Piezoelectricity @article{EngineeringAnalysiswithBoundaryElementsb, title = {A GFDM approach based on the finite pointset method for two-dimensional piezoelectric problems}, author = {Felix R. Saucedo-Zendejo and Jorge L. Medrano-Mendieta and Adriana G. Nuñez-Briones}, url = {https://www.sciencedirect.com/science/article/pii/S0955799724000754}, doi = {10.1016}, issn = {0955-7997}, year = {2024}, date = {2024-02-14}, journal = {Engineering Analysis with Boundary Elements}, volume = {163}, pages = {12-22}, abstract = {In this article a novel Generalized Finite Difference Method (GFDM) derived from the so-called Finite Pointset Method (FPM) is presented and discussed for the first time to solve two-dimensional piezoelectric structures. In this approach, the approximation of the field variables depends on both the governing equations and the local problem discretization, and it incorporates the minimization of the errors of the governing equations being solved, which directly leads to its numerical solution. This truly meshfree formulation is applied in order to solve a static piezoelectric problem that consists of the coupled partial differential equations for the deformations and the electric field, in terms of the displacements and the scalar electric potential. The numerical results of some two-dimensional benchmark problems using the proposed approach are reported and compared with analytical solutions, if available, or with reference numerical solutions, in order to demonstrate its accuracy and suitability for this kind of problems. These numerical results suggest that the proposed GFDM formulation is feasible and promising for solving two-dimensional piezoelectric problems.}, keywords = {Finite pointset method, Meshfree method, Meshless method, Piezoelectricity}, pubstate = {published}, tppubtype = {article} } In this article a novel Generalized Finite Difference Method (GFDM) derived from the so-called Finite Pointset Method (FPM) is presented and discussed for the first time to solve two-dimensional piezoelectric structures. In this approach, the approximation of the field variables depends on both the governing equations and the local problem discretization, and it incorporates the minimization of the errors of the governing equations being solved, which directly leads to its numerical solution. This truly meshfree formulation is applied in order to solve a static piezoelectric problem that consists of the coupled partial differential equations for the deformations and the electric field, in terms of the displacements and the scalar electric potential. The numerical results of some two-dimensional benchmark problems using the proposed approach are reported and compared with analytical solutions, if available, or with reference numerical solutions, in order to demonstrate its accuracy and suitability for this kind of problems. These numerical results suggest that the proposed GFDM formulation is feasible and promising for solving two-dimensional piezoelectric problems. |
a* b Valdez-Rivera W. a, Saucedo-Zendejo Navarro-Acosta Musi-Gutiérrez F R a J A J Trading de criptomonedas mediante algoritmos de aprendizaje por refuerzo profundo y aprendizaje automático Journal Article 12 , 2024. Abstract | BibTeX | Etiquetas: cryptocurrencies, Machine learning, reinforcement learning, trading @article{Tecnologíaparalaadopciónyusodecriptomonedas, title = {Trading de criptomonedas mediante algoritmos de aprendizaje por refuerzo profundo y aprendizaje automático}, author = {Valdez-Rivera, W. a , Saucedo-Zendejo, F.R.a , Navarro-Acosta, J.A. a*, Musi-Gutiérrez, J. b}, year = {2024}, date = {2024-02-07}, volume = {12}, abstract = {The aim of this article is to perform a comparison of the performance of machine learning and deep reinforcement learning algorithms for buying and selling cryptocurrencies based on price prediction. This is done by training and testing such models using daily data spanning the period from 2017-11-09 to 2022-05-01 and was downloaded from Yahoo finance page in their cryptocurrency section. It is observed that machine learning algorithms have high accuracy metrics in their predictions and execute quickly, although they do not result in high return on investment, nor do they surpass deep reinforcement learning in this regard.}, keywords = {cryptocurrencies, Machine learning, reinforcement learning, trading}, pubstate = {published}, tppubtype = {article} } The aim of this article is to perform a comparison of the performance of machine learning and deep reinforcement learning algorithms for buying and selling cryptocurrencies based on price prediction. This is done by training and testing such models using daily data spanning the period from 2017-11-09 to 2022-05-01 and was downloaded from Yahoo finance page in their cryptocurrency section. It is observed that machine learning algorithms have high accuracy metrics in their predictions and execute quickly, although they do not result in high return on investment, nor do they surpass deep reinforcement learning in this regard. |
Rodriguez-Martinez, Hector-Heriberto ; Mejia-de Dios, Jesus-Adolfo ; García-Calvillo, Irma-Delia Representation of Expert Knowledge on Product Design Problems Using Fuzzy Cognitive Maps Journal Article 14502 , pp. 385–396, 2024, ISBN: 978-3-031-51940-6. Abstract | Links | BibTeX | Etiquetas: Computational Intelligence @article{978-3-031-51939-0, title = {Representation of Expert Knowledge on Product Design Problems Using Fuzzy Cognitive Maps}, author = {Rodriguez-Martinez, Hector-Heriberto and Mejia-de Dios, Jesus-Adolfo and García-Calvillo, Irma-Delia}, editor = {Calvo, Hiram and Martínez-Villaseñor, Lourdes and Ponce, Hiram and Zatarain Cabada, Ramón and Montes Rivera, Martín and Mezura-Montes, Efrén}, url = {https://doi.org/10.1007/978-3-031-51940-6_29}, doi = {10.1007/978-3-031-51940-6_29}, isbn = {978-3-031-51940-6}, year = {2024}, date = {2024-01-20}, volume = {14502}, pages = {385--396}, abstract = {An increasing number of companies are seeking to integrate design as a strategic capability to address contemporary business and societal challenges. However, effectively integrating design into an organization poses challenges due to the limited understanding of how to manage this process and assess its impact. This study explores a model based on fuzzy cognitive maps for measuring the impact of design within projects at an organizational level. This model establishes causal relationships among four key layers: design decisions, design metrics, business metrics, and product lifecycle. These layers encompass underlying concepts that can be represented using fuzzy variables, enabling the modeling of a complex system as a Fuzzy Cognitive Map (FCM) in order to visually represent expert knowledge. This approach facilitates the visualization and examination of potential scenarios within the organizational context. The proposed model provides an alternative or complement to existing methods for measuring the impact of design on projects within an organization. To illustrate this, a real-world problem is presented by describing the application of an FCM to evaluate the workflow of a specific operation known as ``Digital CVV on-off'' feature.}, keywords = {Computational Intelligence}, pubstate = {published}, tppubtype = {article} } An increasing number of companies are seeking to integrate design as a strategic capability to address contemporary business and societal challenges. However, effectively integrating design into an organization poses challenges due to the limited understanding of how to manage this process and assess its impact. This study explores a model based on fuzzy cognitive maps for measuring the impact of design within projects at an organizational level. This model establishes causal relationships among four key layers: design decisions, design metrics, business metrics, and product lifecycle. These layers encompass underlying concepts that can be represented using fuzzy variables, enabling the modeling of a complex system as a Fuzzy Cognitive Map (FCM) in order to visually represent expert knowledge. This approach facilitates the visualization and examination of potential scenarios within the organizational context. The proposed model provides an alternative or complement to existing methods for measuring the impact of design on projects within an organization. To illustrate this, a real-world problem is presented by describing the application of an FCM to evaluate the workflow of a specific operation known as ``Digital CVV on-off'' feature. |
2023 |
Soto-Mendoza, Valeria; Ruiz-y-Ruiz, Efraín; García-Calvillo, Irma; Nucamendi-Guillén, Samuel; Cardona-Valdés, Yajaira A location-routing problem for local supply chains, Computers & Industrial Engineering Journal Article Computers & Industrial Engineering, 183 , pp. 109528, 2023, ISSN: 0360-8352. Abstract | Links | BibTeX | Etiquetas: Branch-and-cut algorithm, Collection and Delivery, Local Supply Chain, Location-routing, Mixed Integer Linear Programming @article{S0360835223005521, title = { A location-routing problem for local supply chains, Computers & Industrial Engineering}, author = {Valeria Soto-Mendoza and Efraín Ruiz-y-Ruiz and Irma García-Calvillo and Samuel Nucamendi-Guillén and Yajaira Cardona-Valdés}, url = {https://www.sciencedirect.com/science/article/pii/S0360835223005521}, doi = {https://doi.org/10.1016/j.cie.2023.109528}, issn = {0360-8352}, year = {2023}, date = {2023-08-14}, journal = {Computers & Industrial Engineering}, volume = {183}, pages = {109528}, abstract = {This study addresses a local Supply Chain problem by proposing the Collection and Delivery Location Open Routing Problem (CDLORP), a variant of the classical location-routing problem that considers both collection and distribution routes to decide where to locate facilities. Collection routes are responsible for picking up the required raw material from local suppliers, while distribution routes deliver the final product to local customers. This study is motivated by a public initiative that desires to seize the by-product generated by the agro-industrial local sector to produce and provide healthy and nutritional snacks to students in the public elementary school system in Saltillo, Coahuila, Mexico. A node-based formulation and a flow-based formulation are proposed to solve instances of the problem. The formulations are valid for the symmetric and asymmetric cases of the problem. Four families of valid inequalities from the literature are adapted for the problem and are used to implement two branch-and-cut algorithms based on the proposed formulations. Computational experiments using 42 benchmark instances of different sizes (25 to 260 vertices) are performed to assess the efficacy of the proposed formulations and algorithms. The best results are obtained by the branch-and-cut algorithm using the node-based formulation. Finally, a case study is also addressed and optimally solved with the branch-and-cut algorithm using the node-based formulation. The results obtained for the benchmark instances and the case study show that the proposed approach can solve real-life problems to develop local supply chains for new products.}, keywords = {Branch-and-cut algorithm, Collection and Delivery, Local Supply Chain, Location-routing, Mixed Integer Linear Programming}, pubstate = {published}, tppubtype = {article} } This study addresses a local Supply Chain problem by proposing the Collection and Delivery Location Open Routing Problem (CDLORP), a variant of the classical location-routing problem that considers both collection and distribution routes to decide where to locate facilities. Collection routes are responsible for picking up the required raw material from local suppliers, while distribution routes deliver the final product to local customers. This study is motivated by a public initiative that desires to seize the by-product generated by the agro-industrial local sector to produce and provide healthy and nutritional snacks to students in the public elementary school system in Saltillo, Coahuila, Mexico. A node-based formulation and a flow-based formulation are proposed to solve instances of the problem. The formulations are valid for the symmetric and asymmetric cases of the problem. Four families of valid inequalities from the literature are adapted for the problem and are used to implement two branch-and-cut algorithms based on the proposed formulations. Computational experiments using 42 benchmark instances of different sizes (25 to 260 vertices) are performed to assess the efficacy of the proposed formulations and algorithms. The best results are obtained by the branch-and-cut algorithm using the node-based formulation. Finally, a case study is also addressed and optimally solved with the branch-and-cut algorithm using the node-based formulation. The results obtained for the benchmark instances and the case study show that the proposed approach can solve real-life problems to develop local supply chains for new products. |
Trushnikov, Dmitriy ; Krivonosova, E; Permyakov, G; Kartashev, M; Mosyagin, I; Yu Shengfu, Saucedo-Zendejo Ultrasound Treatment of AMg5 Aluminum–Magnesium Alloy Samples Produced from Wire: Experimental Data Journal Article Russian Engineering Research, 43 , pp. 866-869, 2023. Links | BibTeX | Etiquetas: data samples produced @article{citation-372705403, title = {Ultrasound Treatment of AMg5 Aluminum–Magnesium Alloy Samples Produced from Wire: Experimental Data}, author = {Trushnikov, Dmitriy and Krivonosova, E. and Permyakov, G. and Kartashev, M. and Mosyagin, I. and Yu, Shengfu, Saucedo-Zendejo}, doi = {10.3103/S1068798X23070328}, year = {2023}, date = {2023-07-27}, journal = {Russian Engineering Research}, volume = {43}, pages = {866-869}, keywords = {data samples produced}, pubstate = {published}, tppubtype = {article} } |
Edgar J. Sanchez Carrera, Wiston Adrián Risso On Mexican poverty-trap regimes and struggling to escape them Journal Article Cambridge University Press, pp. 1–29, 2023. Abstract | Links | BibTeX | Etiquetas: Behavioral macroeconomics Economic regimes Poverty traps’ stability C73 I25 I30 O10 @article{CambridgeCore_CitationExport_5Sep2023, title = {On Mexican poverty-trap regimes and struggling to escape them}, author = {Edgar J. Sanchez Carrera, Wiston Adrián Risso}, doi = {10.1017/S1365100523000275}, year = {2023}, date = {2023-07-12}, journal = {Cambridge University Press}, pages = {1–29}, abstract = {This paper deals with the phenomenon of poverty-trap regimes in Mexico, that is, self-reinforcing mechanisms in which municipalities which start poor remain poor. We develop a coordination game of poverty traps driven by strategic interactions of economic agents: people choose to complete or not their education levels since it might be excessively costly and unprofitable. A one-shot game is constructed and then converted into a system of differential equations in which strategies that perform relatively better become more abundant in the population. Applying evolutionary games and symbolic-regimes dynamics (nonparametric and nonlinear techniques), we show that Mexican regions are in poverty-trap regimes (stable and dynamically evolving low-level equilibria) characterized by incomplete education and low income since initial conditions (education and income per capita) are such (very precarious) that poverty is the stable steady-state situation. We examine scenarios to show that to overcome the high-poverty regime by the year 2030, it is necessary to reduce incomplete education by 10% in the 5-year periods 2020–2025 and 2025–2030 and increase per-capita income by 10% in both periods.}, keywords = {Behavioral macroeconomics Economic regimes Poverty traps’ stability C73 I25 I30 O10}, pubstate = {published}, tppubtype = {article} } This paper deals with the phenomenon of poverty-trap regimes in Mexico, that is, self-reinforcing mechanisms in which municipalities which start poor remain poor. We develop a coordination game of poverty traps driven by strategic interactions of economic agents: people choose to complete or not their education levels since it might be excessively costly and unprofitable. A one-shot game is constructed and then converted into a system of differential equations in which strategies that perform relatively better become more abundant in the population. Applying evolutionary games and symbolic-regimes dynamics (nonparametric and nonlinear techniques), we show that Mexican regions are in poverty-trap regimes (stable and dynamically evolving low-level equilibria) characterized by incomplete education and low income since initial conditions (education and income per capita) are such (very precarious) that poverty is the stable steady-state situation. We examine scenarios to show that to overcome the high-poverty regime by the year 2030, it is necessary to reduce incomplete education by 10% in the 5-year periods 2020–2025 and 2025–2030 and increase per-capita income by 10% in both periods. |
Gubar Elena, Policardo Laura Sánchez Carrera Edgar Taynitskiy Vladislav J On optimal lockdown policies while facing socioeconomic costs Journal Article Annals of Operations Research, 2023, ISSN: 1572-9338. Abstract | Links | BibTeX | Etiquetas: Convex and concave costs Epidemic process SIR model Quarantine Optimal control @article{10.1007_s10479-023-05454-8-citation, title = {On optimal lockdown policies while facing socioeconomic costs}, author = {Gubar, Elena, Policardo, Laura, Sánchez Carrera, Edgar J., Taynitskiy, Vladislav}, url = {https://doi.org/10.1007/s10479-023-05454-8}, doi = {s10479-023-05454-8}, issn = {1572-9338}, year = {2023}, date = {2023-06-26}, journal = {Annals of Operations Research}, abstract = {The paper analyzes the optimal lockdown policy using the SQAIRD model over a network with three population groups (young, adult, and old). We show that different lockdown policies may be justified by different socioeconomic structures (objective cost functions that are either convex or concave). We also show that a lockdown policy is always better than a laissez-faire policy, and a targeted policy specific to each group outperforms a uniform policy. In our benchmark example, we consider the case of Italy. Our simulations show that: (a) a lockdown policy is always better than the laissez-faire policy because it limits the costs generated by the pandemic in an uncontrolled situation; (b) a group-specific targeted lockout policy is more effective than a uniform policy to the extent that the groups differ. The latter is a less expensive targeted policy (as it optimally minimizes direct, indirect, and vaccination costs), and it is equally effective in controlling the pandemic. One finding of particular interest is that the optimal lockdown rate should be higher for the young and elderly than for adults. This is motivated by the fact that younger individuals are more likely to spread the virus in question asymptomatically.}, keywords = {Convex and concave costs Epidemic process SIR model Quarantine Optimal control}, pubstate = {published}, tppubtype = {article} } The paper analyzes the optimal lockdown policy using the SQAIRD model over a network with three population groups (young, adult, and old). We show that different lockdown policies may be justified by different socioeconomic structures (objective cost functions that are either convex or concave). We also show that a lockdown policy is always better than a laissez-faire policy, and a targeted policy specific to each group outperforms a uniform policy. In our benchmark example, we consider the case of Italy. Our simulations show that: (a) a lockdown policy is always better than the laissez-faire policy because it limits the costs generated by the pandemic in an uncontrolled situation; (b) a group-specific targeted lockout policy is more effective than a uniform policy to the extent that the groups differ. The latter is a less expensive targeted policy (as it optimally minimizes direct, indirect, and vaccination costs), and it is equally effective in controlling the pandemic. One finding of particular interest is that the optimal lockdown rate should be higher for the young and elderly than for adults. This is motivated by the fact that younger individuals are more likely to spread the virus in question asymptomatically. |
Trushnikov D.N., Musikhin Permyakov Zendejo Saucedo N A F R Algebraic Reconstruction of Beam’s Spatial Characteristics in Electron Beam Welding Journal Article Russian Engineering Research, 43 , pp. 474–478 , 2023, ISSN: 1934-8088. Abstract | Links | BibTeX | Etiquetas: electron beam welding oscillation numerical methods mathematical modeling digital twin F-araday cup computer tomography @article{citations-20230905T190219b, title = {Algebraic Reconstruction of Beam’s Spatial Characteristics in Electron Beam Welding}, author = {Trushnikov, D.N., Musikhin, N.A., Permyakov, Zendejo, F. R. Saucedo}, doi = {https://doi.org/10.3103/S1068798X23050234}, issn = {1934-8088}, year = {2023}, date = {2023-05-19}, journal = {Russian Engineering Research}, volume = {43}, pages = {474–478 }, abstract = {In electron-beam welding, stability of the beam’s spatial characteristics is essential in order to ensure weld quality. For diagnostics and determination of the beam’s spatial and energy characteristics, a Faraday cup is employed, in combination with computer tomography. In determining the current density distribution of the electron beam from the set of projections recorded, Fourier methods are generally adopted. Deficiencies of such methods include poor numerical stability and applicability to a very limited class of objects. To accelerate data analysis, increase the accuracy, and decrease the noise of the measurements, an algebraic approach is proposed, in conjunction with synchronous data accumulation. An algorithm is developed for algebraic derivation and reconstruction of the energy density distribution and monitoring of beam focusing. The two-dimensional current density distribution obtained by analysis is used to obtain the parameters of beam focusing, such as the diameter calculated from the width of the energy density distribution at characteristic levels; the area of the distribution curve or the null central moment of the distributed normalized by the maximum distribution density; and the effective diameter, indicating the interval in which 68% of the beam energy is incident.}, keywords = {electron beam welding oscillation numerical methods mathematical modeling digital twin F-araday cup computer tomography}, pubstate = {published}, tppubtype = {article} } In electron-beam welding, stability of the beam’s spatial characteristics is essential in order to ensure weld quality. For diagnostics and determination of the beam’s spatial and energy characteristics, a Faraday cup is employed, in combination with computer tomography. In determining the current density distribution of the electron beam from the set of projections recorded, Fourier methods are generally adopted. Deficiencies of such methods include poor numerical stability and applicability to a very limited class of objects. To accelerate data analysis, increase the accuracy, and decrease the noise of the measurements, an algebraic approach is proposed, in conjunction with synchronous data accumulation. An algorithm is developed for algebraic derivation and reconstruction of the energy density distribution and monitoring of beam focusing. The two-dimensional current density distribution obtained by analysis is used to obtain the parameters of beam focusing, such as the diameter calculated from the width of the energy density distribution at characteristic levels; the area of the distribution curve or the null central moment of the distributed normalized by the maximum distribution density; and the effective diameter, indicating the interval in which 68% of the beam energy is incident. |
Mejía-De-Dios, Jesús-Adolfo ; Rodríguez-Molina, Alejandro ; Mezura-Montes, Efrén "Multiobjective Bilevel Optimization: A Survey of the State-of-the-Art" Journal Article IEEE Transactions on Systems, Man, and Cybernetics: Systems, 59 (9), pp. 5478-5490, 2023, ISSN: 2168-2216. Abstract | Links | BibTeX | Etiquetas: Bi-level optimization, evolutionary algorithms, metaheuristics (MHs), multiobjective optimization @article{10121701b, title = {"Multiobjective Bilevel Optimization: A Survey of the State-of-the-Art"}, author = {Mejía-De-Dios, Jesús-Adolfo and Rodríguez-Molina, Alejandro and Mezura-Montes, Efrén}, doi = {10.1109/TSMC.2023.3271125}, issn = {2168-2216}, year = {2023}, date = {2023-05-09}, journal = {IEEE Transactions on Systems, Man, and Cybernetics: Systems}, volume = {59}, number = {9}, pages = {5478-5490}, abstract = {Optimization makes processes, systems, or products more efficient, reliable, and with better outcomes. A popular topic on optimization today is multiobjective bilevel optimization (MOBO). In MOBO, an upper level problem is constrained by the solution of a lower level one. The problem at each level can include multiple conflicting objective functions and its own constraints. This survey aims to study the solution approaches proposed to solve MOBO problems, including exact methods and approximate techniques such as metaheuristics (MHs). This work explores classical literature to investigate why most classical methods, theories, and algorithms focus on linear and some convex MOBO problems to solve the optimistic MOBO. Moreover, we study and propose a taxonomy of MH-based frameworks for solving some MOBO instances, highlighting the pros and cons of five main approaches. Finally, a growing interest in MOBO has been detected in the optimization community. A significant number of possible applications and solution approaches establish an early research line to find solutions to these types of problems.}, keywords = {Bi-level optimization, evolutionary algorithms, metaheuristics (MHs), multiobjective optimization}, pubstate = {published}, tppubtype = {article} } Optimization makes processes, systems, or products more efficient, reliable, and with better outcomes. A popular topic on optimization today is multiobjective bilevel optimization (MOBO). In MOBO, an upper level problem is constrained by the solution of a lower level one. The problem at each level can include multiple conflicting objective functions and its own constraints. This survey aims to study the solution approaches proposed to solve MOBO problems, including exact methods and approximate techniques such as metaheuristics (MHs). This work explores classical literature to investigate why most classical methods, theories, and algorithms focus on linear and some convex MOBO problems to solve the optimistic MOBO. Moreover, we study and propose a taxonomy of MH-based frameworks for solving some MOBO instances, highlighting the pros and cons of five main approaches. Finally, a growing interest in MOBO has been detected in the optimization community. A significant number of possible applications and solution approaches establish an early research line to find solutions to these types of problems. |
Calcagnini G., Pavlinović Mršić Policardo Sánchez Carrera Edgar S L Policy choices and compliance behavior in pandemic times Journal Article Journal of Economic Interaction and Coordination, 2023. Abstract | Links | BibTeX | Etiquetas: Evolutionary games and replicator dynamics Infection levels Stringency effects Socioeconomic costs Psychological benefits @article{10.1007_s11403-023-00380-1-citation, title = {Policy choices and compliance behavior in pandemic times}, author = {Calcagnini, G., Pavlinović Mršić, S., Policardo, L, Sánchez Carrera Edgar}, url = {https://doi.org/10.1007/s11403-023-00380-1}, doi = {s11403-023-00380-1}, year = {2023}, date = {2023-03-06}, journal = {Journal of Economic Interaction and Coordination}, abstract = {In this paper, we model an evolutionary noncooperative game between politicians and citizens that, given the level of infection, describes the observed variety of mitigation policies and citizens’ compliance during the COVID-19 pandemic period. Our results show that different stable equilibria exist and that different ways/paths exist to reach these equilibria may be present, depending on the choice of parameters. When the parameters are chosen opportunistically, in the short run, our model generates transitions between hard and soft policy measures to deal with the pandemic. In the long-run, convergence is achieved toward one of the possible stable steady states (obey or not obey lockdown rules) as functions of politicians’ and citizens’ incentives.}, keywords = {Evolutionary games and replicator dynamics Infection levels Stringency effects Socioeconomic costs Psychological benefits}, pubstate = {published}, tppubtype = {article} } In this paper, we model an evolutionary noncooperative game between politicians and citizens that, given the level of infection, describes the observed variety of mitigation policies and citizens’ compliance during the COVID-19 pandemic period. Our results show that different stable equilibria exist and that different ways/paths exist to reach these equilibria may be present, depending on the choice of parameters. When the parameters are chosen opportunistically, in the short run, our model generates transitions between hard and soft policy measures to deal with the pandemic. In the long-run, convergence is achieved toward one of the possible stable steady states (obey or not obey lockdown rules) as functions of politicians’ and citizens’ incentives. |
Yajaira Cardona-Valdés, Samuel Nucamendi-Guillén &Luis Ricardez-Sandoval A capacitated lot-sizing problem in the industrial fashion sector under uncertainty: a conditional value-at-risk framework Journal Article International Journal of Production Research, 61 (21), pp. 7181–7197, 2023. Abstract | Links | BibTeX | Etiquetas: Capacitated lot sizingrisk-aversiontwo-stage stochastic programmingconditional value-at-riskindustrial case study @article{InternationalJournalofProductionResearch, title = {A capacitated lot-sizing problem in the industrial fashion sector under uncertainty: a conditional value-at-risk framework}, author = { Yajaira Cardona-Valdés,Samuel Nucamendi-Guillén &Luis Ricardez-Sandoval}, url = {https://doi.org/10.1080/00207543.2022.2147232}, year = {2023}, date = {2023-03-01}, journal = {International Journal of Production Research}, volume = {61}, number = {21}, pages = {7181--7197}, abstract = {In this study, we present a multi-product, multi-period inventory control problem under uncertainty in product demands that emerges in the fashion industry. A two-stage stochastic model is proposed to design a planning strategy where the total cost incurred by purchase orders, inventory and shortage is minimised. We incorporate the Conditional Value at Risk (CVaR) within the formulation to address exogenous uncertainty. An industrial case study involving a Mexican fashion retail company was considered to assess the performance of the two-stage stochastic model. Scenarios were considered using historical data provided by the company. A sensitivity analysis was also conducted on risk-aversion parameters to assess how the values of these parameters affect the behaviour of the proposed formulation. The results show that the proposed two-stage stochastic formulation is an efficient and practical approach to handle exogenous uncertainty in industrial-scale capacitated lot-sizing problems.}, keywords = {Capacitated lot sizingrisk-aversiontwo-stage stochastic programmingconditional value-at-riskindustrial case study}, pubstate = {published}, tppubtype = {article} } In this study, we present a multi-product, multi-period inventory control problem under uncertainty in product demands that emerges in the fashion industry. A two-stage stochastic model is proposed to design a planning strategy where the total cost incurred by purchase orders, inventory and shortage is minimised. We incorporate the Conditional Value at Risk (CVaR) within the formulation to address exogenous uncertainty. An industrial case study involving a Mexican fashion retail company was considered to assess the performance of the two-stage stochastic model. Scenarios were considered using historical data provided by the company. A sensitivity analysis was also conducted on risk-aversion parameters to assess how the values of these parameters affect the behaviour of the proposed formulation. The results show that the proposed two-stage stochastic formulation is an efficient and practical approach to handle exogenous uncertainty in industrial-scale capacitated lot-sizing problems. |
Flor-Sánchez, Carlos O; Reséndiz-Flores, Edgar O; García-Calvillo, Irma D Kernel-based hybrid multi-objective optimization algorithm (KHMO) Journal Article Information Sciences, 624 , pp. 416-434, 2023, ISSN: 0020-0255. Abstract | Links | BibTeX | Etiquetas: Hybrid multi-objective evolutionary algorithm, Kernel-based gradient, Memetic algorithms, Multi-objective optimization, Pareto searching direction @article{InformationSciences, title = {Kernel-based hybrid multi-objective optimization algorithm (KHMO)}, author = {Carlos O. Flor-Sánchez and Edgar O. Reséndiz-Flores and Irma D. García-Calvillo}, url = {https://www.sciencedirect.com/science/article/pii/S0020025522015900}, doi = {https://doi.org/10.1016/j.ins.2022.12.095}, issn = {0020-0255}, year = {2023}, date = {2023-01-06}, journal = {Information Sciences}, volume = {624}, pages = {416-434}, abstract = {A new hybrid evolutionary algorithm named Kernel-based Hybrid Multi-Objective Optimization Algorithm (KHMO) is introduced in this work. The main novelty of this algorithm is its updating rule based on the concept of a reproducing kernel in order to properly approximate the numerical gradient. In addition, a novel numerical strategy based on the computation of a normal vector to determine a searching target direction that guides the nondominanted solutions into more propitious regions is also introduced for the first time. IGD and HV metrics are used to evaluate the performance of KHMO algorithm against other competitive multi-objective methods such as MRBFO, FDEA-I, VMEF, BiasMOSaDE and GAMODE tested on ZDT and CEC 2009 problems. Moreover, the Wilcoxon test is carried out as a comparative statistical analysis in order to detect if a significant difference exists with respect to the rest of the algorithms. The corresponding numerical results showed that the introduced KHMO algorithm gains the best overall performance among all the compared algorithms in terms of diversity, coverage and convergence in most problems. Moreover, IGD and HV curves reveal a respectable convergence rate since nearly 200 iterations are enough to offer quality solutions.}, keywords = {Hybrid multi-objective evolutionary algorithm, Kernel-based gradient, Memetic algorithms, Multi-objective optimization, Pareto searching direction}, pubstate = {published}, tppubtype = {article} } A new hybrid evolutionary algorithm named Kernel-based Hybrid Multi-Objective Optimization Algorithm (KHMO) is introduced in this work. The main novelty of this algorithm is its updating rule based on the concept of a reproducing kernel in order to properly approximate the numerical gradient. In addition, a novel numerical strategy based on the computation of a normal vector to determine a searching target direction that guides the nondominanted solutions into more propitious regions is also introduced for the first time. IGD and HV metrics are used to evaluate the performance of KHMO algorithm against other competitive multi-objective methods such as MRBFO, FDEA-I, VMEF, BiasMOSaDE and GAMODE tested on ZDT and CEC 2009 problems. Moreover, the Wilcoxon test is carried out as a comparative statistical analysis in order to detect if a significant difference exists with respect to the rest of the algorithms. The corresponding numerical results showed that the introduced KHMO algorithm gains the best overall performance among all the compared algorithms in terms of diversity, coverage and convergence in most problems. Moreover, IGD and HV curves reveal a respectable convergence rate since nearly 200 iterations are enough to offer quality solutions. |
Hernández-Calderón, José-Guillermo ; Soto-Mendoza, Valeria ; Montané-Jiménez, Luis-Gerardo ; Alain Meunier Colula, Marion ; Tello - Carrillo, Janeth Information Visualization Dashboard to Proctor Test-Takers During an Online Language Proficiency Test Journal Article Interacting with Computers, 2023, ISSN: 1873-7951. Abstract | Links | BibTeX | Etiquetas: Test-Taker, Visualization @article{iwac043, title = {Information Visualization Dashboard to Proctor Test-Takers During an Online Language Proficiency Test}, author = {Hernández-Calderón, José-Guillermo and Soto-Mendoza, Valeria and Montané-Jiménez, Luis-Gerardo and Alain Meunier Colula, Marion and Tello - Carrillo, Janeth}, url = {https://academic.oup.com/iwc/advance-article-pdf/doi/10.1093/iwc/iwac043/49222203/iwac043.pdf}, doi = {10.1093/iwc/iwac043}, issn = {1873-7951}, year = {2023}, date = {2023-01-05}, journal = {Interacting with Computers}, abstract = {As a result of the COVID-19 pandemic, the learning and evaluation processes have been moved to an online modality to keep social distance and reduce the spreading of the virus. The strategies implemented for assessment and proctoring in this online remote teaching and assessment emergency are no exception when proctoring test-takers. This problem is addressed from a practical context of study: the English Language Proficiency Tests of a University in southeast Mexico. Considering an iterative user-centered mixed methodology, a set of dashboards was designed, implemented and evaluated to visualize the information generated by test-takers during the administration process. An increase in the Usability of the dashboards is observed in all heuristic categories, with visual design being greater. The use of the mixed methodology and the constant user feedback during the process helped us to reduce development time compared with other works found in the literature. Moreover, it is possible to use the proposed dashboards in other application domains like medicine, or care facilities where user activity monitoring is needed to make informed decisions.categoryHuman-centered computing; Information visualization}, keywords = {Test-Taker, Visualization}, pubstate = {published}, tppubtype = {article} } As a result of the COVID-19 pandemic, the learning and evaluation processes have been moved to an online modality to keep social distance and reduce the spreading of the virus. The strategies implemented for assessment and proctoring in this online remote teaching and assessment emergency are no exception when proctoring test-takers. This problem is addressed from a practical context of study: the English Language Proficiency Tests of a University in southeast Mexico. Considering an iterative user-centered mixed methodology, a set of dashboards was designed, implemented and evaluated to visualize the information generated by test-takers during the administration process. An increase in the Usability of the dashboards is observed in all heuristic categories, with visual design being greater. The use of the mixed methodology and the constant user feedback during the process helped us to reduce development time compared with other works found in the literature. Moreover, it is possible to use the proposed dashboards in other application domains like medicine, or care facilities where user activity monitoring is needed to make informed decisions.categoryHuman-centered computing; Information visualization |
2022 |
Cardona-Valdés, Yajaira; Nucamendi-Guillén, Samuel; Ricardez-Sandoval, Luis A capacitated lot-sizing problem in the industrial fashion sector under uncertainty: a conditional value-at-risk framework Journal Article International Journal of Production Research, pp. 1-17, 2022. Abstract | Links | BibTeX | Etiquetas: Capacitated lot sizingrisk-aversiontwo-stage stochastic programmingconditional value-at-riskindustrial case study @article{tandf_tprs20AxA_1, title = {A capacitated lot-sizing problem in the industrial fashion sector under uncertainty: a conditional value-at-risk framework}, author = {Yajaira Cardona-Valdés and Samuel Nucamendi-Guillén and Luis Ricardez-Sandoval}, url = { https://doi.org/10.1080/00207543.2022.2147232 }, doi = {doi:10.1080/00207543.2022.2147232}, year = {2022}, date = {2022-10-10}, journal = {International Journal of Production Research}, pages = {1-17}, abstract = {In this study, we present a multi-product, multi-period inventory control problem under uncertainty in product demands that emerges in the fashion industry. A two-stage stochastic model is proposed to design a planning strategy where the total cost incurred by purchase orders, inventory and shortage is minimised. We incorporate the Conditional Value at Risk (CVaR) within the formulation to address exogenous uncertainty. An industrial case study involving a Mexican fashion retail company was considered to assess the performance of the two-stage stochastic model. Scenarios were considered using historical data provided by the company. A sensitivity analysis was also conducted on risk-aversion parameters to assess how the values of these parameters affect the behaviour of the proposed formulation. The results show that the proposed two-stage stochastic formulation is an efficient and practical approach to handle exogenous uncertainty in industrial-scale capacitated lot-sizing problems.}, keywords = {Capacitated lot sizingrisk-aversiontwo-stage stochastic programmingconditional value-at-riskindustrial case study}, pubstate = {published}, tppubtype = {article} } In this study, we present a multi-product, multi-period inventory control problem under uncertainty in product demands that emerges in the fashion industry. A two-stage stochastic model is proposed to design a planning strategy where the total cost incurred by purchase orders, inventory and shortage is minimised. We incorporate the Conditional Value at Risk (CVaR) within the formulation to address exogenous uncertainty. An industrial case study involving a Mexican fashion retail company was considered to assess the performance of the two-stage stochastic model. Scenarios were considered using historical data provided by the company. A sensitivity analysis was also conducted on risk-aversion parameters to assess how the values of these parameters affect the behaviour of the proposed formulation. The results show that the proposed two-stage stochastic formulation is an efficient and practical approach to handle exogenous uncertainty in industrial-scale capacitated lot-sizing problems. |
Trushnikov D. N., Kartashev Davlyatshin Zendejo Saucedo M F R P F R Control of Three-Dimensional Surfacing Journal Article Russian Engineering Research, 42 , pp. 1058-1060, 2022, ISSN: 1934-8088. Abstract | Links | BibTeX | Etiquetas: heat input thermal control numerical algorithm mathematical modeling PI control surfacing additive technology 3D surfacing thermal cycles @article{S1068798X2210032X, title = {Control of Three-Dimensional Surfacing}, author = { Trushnikov, D. N. , Kartashev, M. F. , Davlyatshin, R. P. , Zendejo, F. R. Saucedo}, url = {https://doi.org/10.3103/S1068798X2210032X}, doi = {10.3103/S1068798X2210032X}, issn = {1934-8088}, year = {2022}, date = {2022-10-01}, journal = {Russian Engineering Research}, volume = {42}, pages = {1058-1060}, abstract = {A method is described for controlling the heat input in three-dimensional surfacing by means of a numerical algorithm determining the required parameter variation over time in mathematical modeling of the thermal problem. The goal is to ensure stable surfacing, the required geometric characteristics of the multilayer product, and the absence of defects.}, keywords = {heat input thermal control numerical algorithm mathematical modeling PI control surfacing additive technology 3D surfacing thermal cycles}, pubstate = {published}, tppubtype = {article} } A method is described for controlling the heat input in three-dimensional surfacing by means of a numerical algorithm determining the required parameter variation over time in mathematical modeling of the thermal problem. The goal is to ensure stable surfacing, the required geometric characteristics of the multilayer product, and the absence of defects. |
Davlyatshin R.P1 Perminov A.V1, Bayandin Saucedo-Zendejo Trushnikov Y V1 2 F R3 D N1 Modelling the effect of vibrations on the surface tension of a liquid droplet using meshless methods Journal Article PNRPU Mechanics Bulletin, (2), pp. 73–84, 2022, ISSN: 2226-1869. Abstract | Links | BibTeX | Etiquetas: additive technologies; wire cladding; mathematical model; smoothed particle hydrodynamics method; vibration effects; surface tension force @article{PNRPUMechanicsBulletin3414, title = {Modelling the effect of vibrations on the surface tension of a liquid droplet using meshless methods}, author = {Davlyatshin R.P1, Perminov A.V1, Bayandin Y.V1,2, Saucedo-Zendejo F.R3, Trushnikov D.N1}, url = {https://ered.pstu.ru/index.php/mechanics/article/view/3414}, issn = {2226-1869}, year = {2022}, date = {2022-09-09}, journal = {PNRPU Mechanics Bulletin}, number = {2}, pages = {73--84}, abstract = {Application of vibration impacts for purposeful influence on such processes as drop formation, melt bath formation and crystallization of welding bead allows to control heat and mass transfer in liquid, crystallization process and shape of bead in technological processes of welding. Impact of vibration influences on nature of motion of liquid in the drop, which is reflected in the change of value of surface tension coefficient, is considered in the article. The mathematical model of the liquid flow considering surface tension force in formalism of smoothed particles hydrodynamics method is offered. This method allows direct consideration of the vibration effect by introducing additional boundary conditions. Verification of developed mathematical model is conducted in comparison with in-situ experiments, in which dependence of surface tension coefficient value on amplitude of speed of vibration influences was determined. To determine surface tension coefficient two methods were implemented: pending drop method and stalagmometric method. The implemented model satisfactorily describes the effect of decreasing surface tension coefficient for water. A series of numerical experiments for determining the effect of vibration influences on the value of surface tension coefficient for 12X18H10T steel grade was carried out. It was found that at vibration with speed amplitude equal to 2.0 m/s the decrease of surface tension coefficient value by 30 % is observed. Decrease in surface tension coefficient should facilitate the realization of continuous flowing of metal from the wire, which may positively influence the formation of metal during wire surfacing. Thus, the proposed mathematical model can clearly simulate the effect of vibration effects on the value of the surface tension coefficient and will allow the effect of vibration effects in additive manufacturing to be investigated in the future.}, keywords = {additive technologies; wire cladding; mathematical model; smoothed particle hydrodynamics method; vibration effects; surface tension force}, pubstate = {published}, tppubtype = {article} } Application of vibration impacts for purposeful influence on such processes as drop formation, melt bath formation and crystallization of welding bead allows to control heat and mass transfer in liquid, crystallization process and shape of bead in technological processes of welding. Impact of vibration influences on nature of motion of liquid in the drop, which is reflected in the change of value of surface tension coefficient, is considered in the article. The mathematical model of the liquid flow considering surface tension force in formalism of smoothed particles hydrodynamics method is offered. This method allows direct consideration of the vibration effect by introducing additional boundary conditions. Verification of developed mathematical model is conducted in comparison with in-situ experiments, in which dependence of surface tension coefficient value on amplitude of speed of vibration influences was determined. To determine surface tension coefficient two methods were implemented: pending drop method and stalagmometric method. The implemented model satisfactorily describes the effect of decreasing surface tension coefficient for water. A series of numerical experiments for determining the effect of vibration influences on the value of surface tension coefficient for 12X18H10T steel grade was carried out. It was found that at vibration with speed amplitude equal to 2.0 m/s the decrease of surface tension coefficient value by 30 % is observed. Decrease in surface tension coefficient should facilitate the realization of continuous flowing of metal from the wire, which may positively influence the formation of metal during wire surfacing. Thus, the proposed mathematical model can clearly simulate the effect of vibration effects on the value of the surface tension coefficient and will allow the effect of vibration effects in additive manufacturing to be investigated in the future. |
G.-de-Alba, Héctor; Nucamendi-Guillén, Samuel; Avalos-Rosales, Oliver A mixed integer formulation and an efficient metaheuristic for the unrelated parallel machine scheduling problem: Total tardiness minimization Journal Article EURO Journal on Computational Optimization, 10 , pp. 100034, 2022, ISSN: 2192-4406. Abstract | Links | BibTeX | Etiquetas: Total tardinessUnrelated parallel machinesSchedulingMixed integer programmingIterated local search algorithm @article{GDEALBA2022100034, title = {A mixed integer formulation and an efficient metaheuristic for the unrelated parallel machine scheduling problem: Total tardiness minimization}, author = {Héctor G.-de-Alba and Samuel Nucamendi-Guillén and Oliver Avalos-Rosales}, url = {https://www.sciencedirect.com/science/article/pii/S2192440622000107}, doi = {https://doi.org/10.1016/j.ejco.2022.100034}, issn = {2192-4406}, year = {2022}, date = {2022-09-01}, journal = {EURO Journal on Computational Optimization}, volume = {10}, pages = {100034}, abstract = {In this paper, the unrelated parallel machine scheduling problem with the objective of minimizing the total tardiness is addressed. For such a problem, a mixed-integer linear programming (MILP) formulation, that considers assignment and positional variables, is presented. In addition, an iterated local search (ILS) algorithm that produces high-quality solutions in reasonable times is proposed for large size instances. The ILS robustness was determined by comparing its performance with the results provided by the MILP. The instances used in this paper were constructed under a new approach which results in tighter due dates than the previous generation method for this problem. The proposed MILP formulation was able to solve instances of up to 150 jobs and 20 machines. Regarding the ILS, it yielded high-quality solutions in a reasonable time, solving instances of a size up to 400 jobs and 20 machines. Experimental results confirm that both approaches are efficient and promising.}, keywords = {Total tardinessUnrelated parallel machinesSchedulingMixed integer programmingIterated local search algorithm}, pubstate = {published}, tppubtype = {article} } In this paper, the unrelated parallel machine scheduling problem with the objective of minimizing the total tardiness is addressed. For such a problem, a mixed-integer linear programming (MILP) formulation, that considers assignment and positional variables, is presented. In addition, an iterated local search (ILS) algorithm that produces high-quality solutions in reasonable times is proposed for large size instances. The ILS robustness was determined by comparing its performance with the results provided by the MILP. The instances used in this paper were constructed under a new approach which results in tighter due dates than the previous generation method for this problem. The proposed MILP formulation was able to solve instances of up to 150 jobs and 20 machines. Regarding the ILS, it yielded high-quality solutions in a reasonable time, solving instances of a size up to 400 jobs and 20 machines. Experimental results confirm that both approaches are efficient and promising. |
Aboytes-Ojeda, Mario; Castillo-Villar, Krystel K; Cardona-Valdés, Yajaira Bi-objective stochastic model for the design of biofuel supply chains incorporating risk Journal Article Expert Systems with Applications, 202 (117-285), pp. 117-285, 2022, ISSN: 0957-4174. Abstract | Links | BibTeX | Etiquetas: Bioenergy, Biofuels, Biomass, Conditional value at risk, Energy, Risk-averse, Stochastic optimization, Supply chain @article{S0957417422006522, title = {Bi-objective stochastic model for the design of biofuel supply chains incorporating risk}, author = {Mario Aboytes-Ojeda and Krystel K. Castillo-Villar and Yajaira Cardona-Valdés}, url = {https://doi.org/10.1016/j.eswa.2022.117285}, doi = {10.1016/j.eswa.2022.117285}, issn = {0957-4174}, year = {2022}, date = {2022-08-01}, journal = {Expert Systems with Applications}, volume = {202}, number = {117-285}, pages = {117-285}, abstract = {The design of a biofuel supply chain network involves multiple uncertainty sources such as the biomass supply and quality. Most of the previous works took a risk-neutral approach by modeling this problem as two-stage stochastic formulation. However, most decision makers are not risk-neutral and a better understanding of the risk involved is germane. This study proposes a bi-objective two-stage stochastic optimization model that considers the expected total cost and the CVaR as objective functions. The first stage determines the location of biorefineries, and the second stage decides the flow between suppliers (counties) and biorefineries. We assume as non deterministic two features of switchgrass (biomass), the ash and moisture contents. To solve this problem, a hybrid method based on a Simulated Annealing algorithm and the augmented ε-constraint method is developed and tested using a realistic large-scale case study in the state of Texas. Based on the experimental results, we observe that the CVaR is not a suitable risk measure when the problem involves a third party because the cost of third-party does not imply risk for the decision makers (biorefinery owner). Therefore, the PVaR model is more suitable for the nature of this problem since PVaR includes the risk inherent to the third party in case this entity is not able to fulfill the demand of biofuel not covered by the supply chain network. As a result, we reformulate the original model by replacing the CVaR by PVaR to create a tailor-made formulation for the bi-objective two-stage stochastic programming problem including third party biofuel suppliers. Compared to existing solution procedures, the proposed hybrid method has merits in terms of computational burden and solution quality. Computational experiments show that the lower the confidence level in the third party (that is, a less reliable supplier needed to meet the bioethanol demand), the higher the expected costs and the PVaR (risk) for the supply chain design.}, keywords = {Bioenergy, Biofuels, Biomass, Conditional value at risk, Energy, Risk-averse, Stochastic optimization, Supply chain}, pubstate = {published}, tppubtype = {article} } The design of a biofuel supply chain network involves multiple uncertainty sources such as the biomass supply and quality. Most of the previous works took a risk-neutral approach by modeling this problem as two-stage stochastic formulation. However, most decision makers are not risk-neutral and a better understanding of the risk involved is germane. This study proposes a bi-objective two-stage stochastic optimization model that considers the expected total cost and the CVaR as objective functions. The first stage determines the location of biorefineries, and the second stage decides the flow between suppliers (counties) and biorefineries. We assume as non deterministic two features of switchgrass (biomass), the ash and moisture contents. To solve this problem, a hybrid method based on a Simulated Annealing algorithm and the augmented ε-constraint method is developed and tested using a realistic large-scale case study in the state of Texas. Based on the experimental results, we observe that the CVaR is not a suitable risk measure when the problem involves a third party because the cost of third-party does not imply risk for the decision makers (biorefinery owner). Therefore, the PVaR model is more suitable for the nature of this problem since PVaR includes the risk inherent to the third party in case this entity is not able to fulfill the demand of biofuel not covered by the supply chain network. As a result, we reformulate the original model by replacing the CVaR by PVaR to create a tailor-made formulation for the bi-objective two-stage stochastic programming problem including third party biofuel suppliers. Compared to existing solution procedures, the proposed hybrid method has merits in terms of computational burden and solution quality. Computational experiments show that the lower the confidence level in the third party (that is, a less reliable supplier needed to meet the bioethanol demand), the higher the expected costs and the PVaR (risk) for the supply chain design. |
Flores-Carballo, Carlos R; Molina-Arenas, Gabriel A; Macias, Adrian; Caro, Karina; Beltran, Jessica; Castro, Luis A Speaker Identification in Interactions between Mothers and Children with Down Syndrome via Audio Analysis: A Case Study in Mexico Journal Article pp. 1-16, 2022. Links | BibTeX | Etiquetas: Identification in Interactions @article{tandf_hihc20AxA_1, title = {Speaker Identification in Interactions between Mothers and Children with Down Syndrome via Audio Analysis: A Case Study in Mexico}, author = {Carlos R. Flores-Carballo and Gabriel A. Molina-Arenas and Adrian Macias and Karina Caro and Jessica Beltran and Luis A. Castro}, url = {https://doi.org/10.1080/10447318.2022.2090610}, doi = {10.1080/10447318.2022.2090610}, year = {2022}, date = {2022-08-01}, pages = {1-16}, keywords = {Identification in Interactions}, pubstate = {published}, tppubtype = {article} } |
Navarro-Acosta J.A., García-Calvillo & Reséndiz-Flores I D Fault detection based on squirrel search algorithm and support vector data description for industrial processes Journal Article 2022, ISSN: 1433-7479. Abstract | Links | BibTeX | Etiquetas: Support Vector Data Description Squirrel Search Algorithm Fault detection One-class classification @article{10.1007_s00500-022-07337-9-citation, title = {Fault detection based on squirrel search algorithm and support vector data description for industrial processes}, author = {Navarro-Acosta, J.A., García-Calvillo, I.D. & Reséndiz-Flores}, url = {https://doi.org/10.1007/s00500-022-07337-9}, doi = {10.1007/s00500-022-07337-9}, issn = {1433-7479}, year = {2022}, date = {2022-07-22}, abstract = {This paper proposes a novel fault detection system by the combination of Support Vector Data Description and Squirrel Search Algorithm. This approach is capable to deal with processes or machines where the number of fault observations is small or not even available for training phase. In this work the use of classic Support Vector Data Description as well as its fast version with two kernel functions is proposed. The experimental results showed that the proposed system exhibits suitable capabilities for fault detection in complex industrial processes such as the one presented in this research. Moreover, a nonparametric statistical analysis is also included in order to compare the considered strategies and enhance the efficiency of the presented approach. Finally, a comparison with genetic algorithm approach and the one-class classifier based on support vectors is carried out which shows that the proposed algorithm outperforms traditional techniques.}, keywords = {Support Vector Data Description Squirrel Search Algorithm Fault detection One-class classification}, pubstate = {published}, tppubtype = {article} } This paper proposes a novel fault detection system by the combination of Support Vector Data Description and Squirrel Search Algorithm. This approach is capable to deal with processes or machines where the number of fault observations is small or not even available for training phase. In this work the use of classic Support Vector Data Description as well as its fast version with two kernel functions is proposed. The experimental results showed that the proposed system exhibits suitable capabilities for fault detection in complex industrial processes such as the one presented in this research. Moreover, a nonparametric statistical analysis is also included in order to compare the considered strategies and enhance the efficiency of the presented approach. Finally, a comparison with genetic algorithm approach and the one-class classifier based on support vectors is carried out which shows that the proposed algorithm outperforms traditional techniques. |
Saucedo-Zendejo F.R., Reséndiz-Flores Meshfree numerical approach based on the finite pointset method for two-way coupled transient linear thermoelasticity Journal Article 2022, ISSN: 2196-4386. Abstract | Links | BibTeX | Etiquetas: Meshfree method Transient two-way coupled linear thermoelasticity Finite pointset method @article{10.1007_s40571-022-00496-4-citation, title = {Meshfree numerical approach based on the finite pointset method for two-way coupled transient linear thermoelasticity}, author = {Saucedo-Zendejo, F.R., Reséndiz-Flores}, url = {https://doi.org/10.1007/s40571-022-00496-4}, doi = {10.1007/s40571-022-00496-4}, issn = {2196-4386}, year = {2022}, date = {2022-06-19}, abstract = {A new formulation based on a real meshfree approach is presented for the first time in the field of transient linear thermoelasticity. The finite pointset method, a strong form meshfree method, is applied to discretize in space the partial differential equations modeling two-way coupled transient linear thermoelasticity while one-order implicit Euler scheme is used for time scale. The corresponding two-way coupled discretization is presented in detail and a typical benchmark problem where transient thermal and pressure shocks are numerically compared with other well-known methods. The studied physical configuration is also applied to a complex geometry in 2D where the obtained numerical results show an excellent behavior in comparison with the finite element method. The obtained results lead to the conclusion that the proposed meshless approach is a promising tool for non-stationary and coupled thermoelastic problems.}, keywords = {Meshfree method Transient two-way coupled linear thermoelasticity Finite pointset method}, pubstate = {published}, tppubtype = {article} } A new formulation based on a real meshfree approach is presented for the first time in the field of transient linear thermoelasticity. The finite pointset method, a strong form meshfree method, is applied to discretize in space the partial differential equations modeling two-way coupled transient linear thermoelasticity while one-order implicit Euler scheme is used for time scale. The corresponding two-way coupled discretization is presented in detail and a typical benchmark problem where transient thermal and pressure shocks are numerically compared with other well-known methods. The studied physical configuration is also applied to a complex geometry in 2D where the obtained numerical results show an excellent behavior in comparison with the finite element method. The obtained results lead to the conclusion that the proposed meshless approach is a promising tool for non-stationary and coupled thermoelastic problems. |
Gian Italo Bischi Francesca Grassetti, Edgar Sanchez Carrera J On the economic growth equilibria during the Covid-19 pandemic Journal Article Communications in Nonlinear Science and Numerical Simulation, pp. 36, 2022, ISSN: 1007-5704. Abstract | Links | BibTeX | Etiquetas: Economic growth modelling, Growth traps, Labor force, Pandemics @article{BISCHI2022106573, title = {On the economic growth equilibria during the Covid-19 pandemic}, author = {Gian Italo Bischi, Francesca Grassetti, Edgar J. Sanchez Carrera}, url = {https://www.sciencedirect.com/science/article/pii/S1007570422001836}, doi = {106573}, issn = {1007-5704}, year = {2022}, date = {2022-05-11}, journal = {Communications in Nonlinear Science and Numerical Simulation}, pages = {36}, abstract = {The aim of this paper is to study the effects of the Covid-19 pandemic suppression policies (i.e. containment measures or lockdowns) on labor supply, capital accumulation, and so the economic growth. We merge an epidemic SIS population model and a Solow’s type growth model, i.e. we propose a fusion between economics and epidemiology. We show the creation and the destruction of economic growth equilibria driven by the suppression policies and by the severity of the disease. The dynamic stability properties of the equilibria are mainly determined by (i) the stringency of the suppression policies, (ii) the proportion of infected workers, (iii) the recovery rate of workers, and (iv) the economy’s saving rate. Thus, economies can fall into the stable equilibrium of the poverty trap if the propensity to save is low and the economic policies that reduce the spread of infection are severe enough with high levels of infection and low rates of illness recovery. Otherwise, with high savings rates and if the suppression policies perform in such a way that infection levels are low and recovery rates are high, then the economies converge towards the equilibrium of high economic growth with capital accumulation. The scenario is rather complex since there is a multiplicity of equilibria such that economies can be in one scenario or another, characterized by stability or (structural) instability, i.e. bifurcation paths. Numerical simulations corroborate our results. Keywords: Economic growth modelling; Growth traps; Labor force; Pandemics}, keywords = {Economic growth modelling, Growth traps, Labor force, Pandemics}, pubstate = {published}, tppubtype = {article} } The aim of this paper is to study the effects of the Covid-19 pandemic suppression policies (i.e. containment measures or lockdowns) on labor supply, capital accumulation, and so the economic growth. We merge an epidemic SIS population model and a Solow’s type growth model, i.e. we propose a fusion between economics and epidemiology. We show the creation and the destruction of economic growth equilibria driven by the suppression policies and by the severity of the disease. The dynamic stability properties of the equilibria are mainly determined by (i) the stringency of the suppression policies, (ii) the proportion of infected workers, (iii) the recovery rate of workers, and (iv) the economy’s saving rate. Thus, economies can fall into the stable equilibrium of the poverty trap if the propensity to save is low and the economic policies that reduce the spread of infection are severe enough with high levels of infection and low rates of illness recovery. Otherwise, with high savings rates and if the suppression policies perform in such a way that infection levels are low and recovery rates are high, then the economies converge towards the equilibrium of high economic growth with capital accumulation. The scenario is rather complex since there is a multiplicity of equilibria such that economies can be in one scenario or another, characterized by stability or (structural) instability, i.e. bifurcation paths. Numerical simulations corroborate our results. Keywords: Economic growth modelling; Growth traps; Labor force; Pandemics |
Ruiz y Ruiz E., García-Calvillo & Nucamendi-Guillén I Open vehicle routing problem with split deliveries: mathematical formulations and a cutting-plane method Journal Article Operational Research, 2022, ISSN: 1866-1505. Abstract | Links | BibTeX | Etiquetas: Open vehicle routing Mixed integer programming Split delivery Logistic distribution Cutting-plane method Mixed integer formulations @article{1017–1037, title = {Open vehicle routing problem with split deliveries: mathematical formulations and a cutting-plane method}, author = {Ruiz y Ruiz, E., García-Calvillo, I. & Nucamendi-Guillén}, doi = {https://doi.org/10.1007/s12351-020-00580-8}, issn = {1866-1505}, year = {2022}, date = {2022-04-01}, journal = {Operational Research}, abstract = {This study addresses the open vehicle routing problem with split deliveries, a variant of the classical vehicle routing problem that allows open routes and partitioned deliveries for customers (i.e., multiple vehicles may serve one customer). This approach may be beneficial for companies interested in reducing their logistics and distribution costs. This study is motivated by a company in the pharmaceutical industry, that seeks to explore the possibility of splitting their deliveries to improve quality indicators related to on-time deliveries and customer satisfaction. Two mixed-integer formulations of the problem are proposed. Additionally, a cutting-plane method is designed to improve the optimization performance. Computational experiments were conducted to validate the performance of the formulations. The second formulation effectiveness was confirmed by providing optimal solutions for instances of up to 30 nodes in a reasonable computational time. The incorporation of the cutting-plane method improves performance with a substantial reduction in the GAP. In the case study, this new approach shows its effectiveness in economic terms by providing savings of up to 20% of the current distribution costs.}, keywords = {Open vehicle routing Mixed integer programming Split delivery Logistic distribution Cutting-plane method Mixed integer formulations}, pubstate = {published}, tppubtype = {article} } This study addresses the open vehicle routing problem with split deliveries, a variant of the classical vehicle routing problem that allows open routes and partitioned deliveries for customers (i.e., multiple vehicles may serve one customer). This approach may be beneficial for companies interested in reducing their logistics and distribution costs. This study is motivated by a company in the pharmaceutical industry, that seeks to explore the possibility of splitting their deliveries to improve quality indicators related to on-time deliveries and customer satisfaction. Two mixed-integer formulations of the problem are proposed. Additionally, a cutting-plane method is designed to improve the optimization performance. Computational experiments were conducted to validate the performance of the formulations. The second formulation effectiveness was confirmed by providing optimal solutions for instances of up to 30 nodes in a reasonable computational time. The incorporation of the cutting-plane method improves performance with a substantial reduction in the GAP. In the case study, this new approach shows its effectiveness in economic terms by providing savings of up to 20% of the current distribution costs. |
Saucedo-Zendejo, Felix R A novel meshfree approach based on the finite pointset method for linear elasticity problems Journal Article Engineering Analysis with Boundary Elements, 136 (0), pp. 172-185, 2022, ISSN: 0955-7997. Abstract | Links | BibTeX | Etiquetas: Finite pointset method, Meshless method, Navier–Cauchy equations, Solid mechanics @article{0955-7997, title = {A novel meshfree approach based on the finite pointset method for linear elasticity problems}, author = {Felix R. Saucedo-Zendejo}, url = {https://doi.org/10.1016/j.enganabound.2021.12.011 https://www.sciencedirect.com/science/article/pii/S0955799721003647}, doi = {10.1016/j.enganabound.2021.12.011}, issn = {0955-7997}, year = {2022}, date = {2022-03-01}, journal = {Engineering Analysis with Boundary Elements}, volume = {136}, number = {0}, pages = {172-185}, abstract = {In this work a promising novel meshfree numerical formulation with improved accuracy based on the finite pointset method (FPM) is reported and implemented for the first time for linear elasticity problems. This truly meshfree approach is applied in order to solve the governing partial differential equations, the Navier–Cauchy equations. The numerical results of some 2D and 3D classical and well-known benchmark examples using this formulation are reported and compared with a previous FPM formulation which demonstrate the improvement in accuracy, and finally, the numerical solution of a three-dimensional realistic example is reported which suggest that the presented FPM approach is promising and feasible for this kind of problems in solid mechanics.}, keywords = {Finite pointset method, Meshless method, Navier–Cauchy equations, Solid mechanics}, pubstate = {published}, tppubtype = {article} } In this work a promising novel meshfree numerical formulation with improved accuracy based on the finite pointset method (FPM) is reported and implemented for the first time for linear elasticity problems. This truly meshfree approach is applied in order to solve the governing partial differential equations, the Navier–Cauchy equations. The numerical results of some 2D and 3D classical and well-known benchmark examples using this formulation are reported and compared with a previous FPM formulation which demonstrate the improvement in accuracy, and finally, the numerical solution of a three-dimensional realistic example is reported which suggest that the presented FPM approach is promising and feasible for this kind of problems in solid mechanics. |
Vanesa Avalos Gaytan Irma Delia Garcia Calvillo, Edgar Sanchez Carrera J No-linealidades entre el bienestar y la calidad-efectividad de las políticas públicas en México Journal Article Equilibrio Económico, 18 (53), 2022, ISSN: 2007-2627. Abstract | BibTeX | Etiquetas: Dinámica evolutiva, Macroeconomía del comportamiento, Políticas de bienestar, Políticas económicas mexicanas @article{2007-2627, title = {No-linealidades entre el bienestar y la calidad-efectividad de las políticas públicas en México}, author = {Vanesa Avalos Gaytan, Irma Delia Garcia Calvillo, Edgar J. Sanchez Carrera}, issn = {2007-2627}, year = {2022}, date = {2022-02-17}, journal = {Equilibrio Económico}, volume = {18}, number = {53}, abstract = {Este artículo de investigación desarrolla y propone un modelo dinámico evolutivo no-lineal para evaluar el impacto de los niveles de bienestar en políticas económicas tanto eficientes como ineficientes a largo plazo. Las estimaciones de mínimos cuadrados no-lineales y de coeficientes funcionales respaldan nuestros resultados de no-linealidad entre el bienestar y las políticas gubernamentales, para el caso mexicano, para el periodo 1996-2020. Concluimos que, en una economía, es fundamental aumentar los niveles de bienestar de sus ciudadanos para evitar la implementación de políticas económicas ineficientes.}, keywords = {Dinámica evolutiva, Macroeconomía del comportamiento, Políticas de bienestar, Políticas económicas mexicanas}, pubstate = {published}, tppubtype = {article} } Este artículo de investigación desarrolla y propone un modelo dinámico evolutivo no-lineal para evaluar el impacto de los niveles de bienestar en políticas económicas tanto eficientes como ineficientes a largo plazo. Las estimaciones de mínimos cuadrados no-lineales y de coeficientes funcionales respaldan nuestros resultados de no-linealidad entre el bienestar y las políticas gubernamentales, para el caso mexicano, para el periodo 1996-2020. Concluimos que, en una economía, es fundamental aumentar los niveles de bienestar de sus ciudadanos para evitar la implementación de políticas económicas ineficientes. |
Reséndiz-Flores, Edgar O; Navarro-Acosta, Jesús Alejandro; García-Calvillo, Irma D Smart fault detection and optimal variables identification using Kernel Mahalanobis Distance for industrial manufacturing processes Journal Article International Journal of Computer Integrated Manufacturing, 0 (0), pp. 1-9, 2022, ISSN: 0951-192X. Abstract | Links | BibTeX | Etiquetas: Fault classification, Kernel Mahalanobis distance, Manufacturing Processes, Variable identification @article{0951-192X, title = {Smart fault detection and optimal variables identification using Kernel Mahalanobis Distance for industrial manufacturing processes}, author = {Edgar O. Reséndiz-Flores and Jesús Alejandro Navarro-Acosta and Irma D. García-Calvillo}, url = {https://doi.org/10.1080/0951192X.2022.2027019}, doi = {10.1080/0951192X.2022.2027019}, issn = {0951-192X}, year = {2022}, date = {2022-01-27}, journal = {International Journal of Computer Integrated Manufacturing}, volume = {0}, number = {0}, pages = {1-9}, abstract = {The development of a new methodology for the accurate fault detection considering only those really important features of practical impact is the main motivation of this work. Therefore, the Kernel-based Mahalanobis-Taguchi System as a pre-classification stage followed by a binary particle swarm optimization procedure is introduced in this work in order to identify variables of impact by means of a feature screening in an optimal manner for industrial manufacturing processes. In order to study the practical efficiency of the presented approach, a computational comparison between the introduced approach and the standard Mahalanobis-Taguchi System is reported. Furthermore to test the relevance of the selected features by the proposed fault diagnosis approach, the sequential feature selection (SFS) and Random Forest (RF) algorithms are implemented and five experiments were carried out training a total of 15 machine learning algorithms. The presented approach is applied to foam injection and welding processes from the manufacturing automotive industry showing that the presented approach can achieve betters accuracy values for fault detection by selecting a small subset of features than the other presented feature selection techniques.}, keywords = {Fault classification, Kernel Mahalanobis distance, Manufacturing Processes, Variable identification}, pubstate = {published}, tppubtype = {article} } The development of a new methodology for the accurate fault detection considering only those really important features of practical impact is the main motivation of this work. Therefore, the Kernel-based Mahalanobis-Taguchi System as a pre-classification stage followed by a binary particle swarm optimization procedure is introduced in this work in order to identify variables of impact by means of a feature screening in an optimal manner for industrial manufacturing processes. In order to study the practical efficiency of the presented approach, a computational comparison between the introduced approach and the standard Mahalanobis-Taguchi System is reported. Furthermore to test the relevance of the selected features by the proposed fault diagnosis approach, the sequential feature selection (SFS) and Random Forest (RF) algorithms are implemented and five experiments were carried out training a total of 15 machine learning algorithms. The presented approach is applied to foam injection and welding processes from the manufacturing automotive industry showing that the presented approach can achieve betters accuracy values for fault detection by selecting a small subset of features than the other presented feature selection techniques. |
2021 |
FR Saucedo Zendejo, Nobrega M A novel approach to model the flow of generalized Newtonian fluids with the finite pointset method. Journal Article Computational Particle Mechanics, 2021, ISSN: 2196-4386. Abstract | Links | BibTeX | Etiquetas: Computational rheology, Finite pointset method, Generalized Newtonian fluids, Polymer processing @article{s40571-021-00432-y, title = {A novel approach to model the flow of generalized Newtonian fluids with the finite pointset method.}, author = {FR, Saucedo Zendejo, M, Nobrega}, url = {https://doi.org/10.1007/s40571-021-00432-y}, doi = {10.1007/s40571-021-00432-y}, issn = {2196-4386}, year = {2021}, date = {2021-09-06}, journal = {Computational Particle Mechanics}, abstract = {Several numerical meshless methods have been proposed to try to solve some of the limitations of traditional mesh-based methods. Among those, the finite pointset method, which has been applied in several physical problems, shows a great potential. This work presents an extension of the available numerical approaches based on the finite pointset method to allow dealing with generalized Newtonian fluids, which possess a high viscosity. The developed finite pointset method solver is verified through the comparison of its predictions with analytical solutions, for simple flows, and with results provided by the well-established and validated open-source computational library OpenFOAM, for more complex cases studies. The excellent results obtained on the verification case studies prove the proper implementation of the new finite pointset method solver.}, keywords = {Computational rheology, Finite pointset method, Generalized Newtonian fluids, Polymer processing}, pubstate = {published}, tppubtype = {article} } Several numerical meshless methods have been proposed to try to solve some of the limitations of traditional mesh-based methods. Among those, the finite pointset method, which has been applied in several physical problems, shows a great potential. This work presents an extension of the available numerical approaches based on the finite pointset method to allow dealing with generalized Newtonian fluids, which possess a high viscosity. The developed finite pointset method solver is verified through the comparison of its predictions with analytical solutions, for simple flows, and with results provided by the well-established and validated open-source computational library OpenFOAM, for more complex cases studies. The excellent results obtained on the verification case studies prove the proper implementation of the new finite pointset method solver. |
verónica Juan Gabriel Brida W. Adrian Risso, Edgar Sánchez Carrera Segarra J Growth and inequality in the Mexican states:Regimes, thresholds, and traps Journal Article Papers in Regional Science, 100 (5), pp. 29, 2021. Abstract | Links | BibTeX | Etiquetas: Economic growth, hierarchical trees, interregional inequality, Mexican economy, regime dynamics @article{1295–1322, title = {Growth and inequality in the Mexican states:Regimes, thresholds, and traps}, author = {Juan Gabriel Brida, W. Adrian Risso, Edgar J. Sánchez Carrera, verónica Segarra }, url = {https://doi.org/10.1111/pirs.12616 https://rsaiconnect.onlinelibrary.wiley.com/doi/abs/10.1111/pirs.12616}, doi = {10.1111}, year = {2021}, date = {2021-05-21}, journal = {Papers in Regional Science}, volume = {100}, number = {5}, pages = {29}, abstract = {Using the inter-regional economic inequality index and thegross state productper capitafor the Mexican states overthe period 1940–2015, we apply regime dynamics and hier-archical cluster analysis for segmenting the sample intoregimes of Mexican states with similar performance. Robusteconometric models are studied showing the direction ofcausality between economic inequality and incomepercapita, and the existence of a U-shaped curve for theinterdependence between economic growth vseconomic inequality, and threshold levels. We additionallydemonstrate the existence of inequality traps. Theeducation literacy rate as a control variable indicates aninverted U-shaped curve.}, keywords = {Economic growth, hierarchical trees, interregional inequality, Mexican economy, regime dynamics}, pubstate = {published}, tppubtype = {article} } Using the inter-regional economic inequality index and thegross state productper capitafor the Mexican states overthe period 1940–2015, we apply regime dynamics and hier-archical cluster analysis for segmenting the sample intoregimes of Mexican states with similar performance. Robusteconometric models are studied showing the direction ofcausality between economic inequality and incomepercapita, and the existence of a U-shaped curve for theinterdependence between economic growth vseconomic inequality, and threshold levels. We additionallydemonstrate the existence of inequality traps. Theeducation literacy rate as a control variable indicates aninverted U-shaped curve. |
Navarro-Acosta J.A., Soto-Mendoza Saucedo-Zendejo Guajardo-Espinoza Rivera-Morales V F R J M Evaluación psicológica de profesores y alumnos mexicanos durante la pandemia de COVID-19 mediante técnicas de Machine learning Journal Article Ingeniería Investigación y Tecnología, 22 (4), pp. 1-15, 2021, ISSN: 2594-0732. Abstract | Links | BibTeX | Etiquetas: classification, machine learning., prediction, Psychometry, validity @article{v22n4-02, title = {Evaluación psicológica de profesores y alumnos mexicanos durante la pandemia de COVID-19 mediante técnicas de Machine learning}, author = {Navarro-Acosta, J.A.,Soto-Mendoza, V.,Saucedo-Zendejo, F.R.,Guajardo-Espinoza, J.M.,Rivera-Morales}, url = {https://doi.org/10.22201/fi.25940732e.2021.22.4.026}, doi = {10.22201}, issn = { 2594-0732}, year = {2021}, date = {2021-04-21}, journal = {Ingeniería Investigación y Tecnología}, volume = {22}, number = {4}, pages = {1-15}, abstract = {This work describes the validation of the results of a psychological test applied to teachers and students in isolation due to the COVID-19 pandemic in the state of Coahuila, Mexico. The objective of this work is to apply machine learning techniques to validate an instrument that measures negative emotions and feelings, as well as cognitive bias or deviation of thinking about education and the pandemic in isolation. For the fulfillment of the objective, an instrument was applied in electronic format that was disseminated in the state of Coahuila, the users respond and the database is generated, which, after its pre-processing, is analyzed using the combination of Random Forest (RF) and Support Vector Machines (SVM); obtaining as a result the relevance or not of some of the items from the tests, thereby giving an internal validity to the instrument. The experimental results show that the proposed methodology is capable of selecting the most relevant predictor variables. In this way, satisfactory results were obtained in the classification and prediction of psychological diagnoses. On the other hand, although the implemented techniques are robust and reliable, they present limitations in terms of the observation of the other types of validity: construct, external, among others; which could limit its use. Although, in the field of psychometry there are various classic strategies, the proposed methodology based on the combination of machine learning techniques for the analysis and validation of this type of tests, favors the growth of options to improve diagnoses and consequently the treatment of psychological ailments.}, keywords = {classification, machine learning., prediction, Psychometry, validity}, pubstate = {published}, tppubtype = {article} } This work describes the validation of the results of a psychological test applied to teachers and students in isolation due to the COVID-19 pandemic in the state of Coahuila, Mexico. The objective of this work is to apply machine learning techniques to validate an instrument that measures negative emotions and feelings, as well as cognitive bias or deviation of thinking about education and the pandemic in isolation. For the fulfillment of the objective, an instrument was applied in electronic format that was disseminated in the state of Coahuila, the users respond and the database is generated, which, after its pre-processing, is analyzed using the combination of Random Forest (RF) and Support Vector Machines (SVM); obtaining as a result the relevance or not of some of the items from the tests, thereby giving an internal validity to the instrument. The experimental results show that the proposed methodology is capable of selecting the most relevant predictor variables. In this way, satisfactory results were obtained in the classification and prediction of psychological diagnoses. On the other hand, although the implemented techniques are robust and reliable, they present limitations in terms of the observation of the other types of validity: construct, external, among others; which could limit its use. Although, in the field of psychometry there are various classic strategies, the proposed methodology based on the combination of machine learning techniques for the analysis and validation of this type of tests, favors the growth of options to improve diagnoses and consequently the treatment of psychological ailments. |
Resendiz Flores FR, Saucedo Zendejo AV Jimenez Villalpando Fully coupled meshfree numerical approach based on the finite pointset method for static linear thermoelasticity problems Journal Article Computational Particle Mechanics, pp. 14, 2021, ISSN: 2196-4386. Abstract | Links | BibTeX | Etiquetas: Computational Particle Mechanics @article{2196-4386, title = {Fully coupled meshfree numerical approach based on the finite pointset method for static linear thermoelasticity problems}, author = {Resendiz Flores, FR, Saucedo Zendejo, AV Jimenez Villalpando}, url = {https://doi.org/10.1007/s40571-021-00406-0}, doi = {s40571-021-00406-0}, issn = {2196-4386}, year = {2021}, date = {2021-04-10}, journal = {Computational Particle Mechanics}, pages = {14}, abstract = {In this work, a promising fully coupled meshfree numerical approach is extended and implemented for the first time in the field of linear static thermoelasticity. A real meshfree method, the so-called finite pointset method (FPM), is applied and implemented in order to solve the strong/classical form of the governing partial differential equations for static linear thermoelasticity. Several benchmark problems are numerically solved in order to show the proposed coupled FPM numerical performance. The presented FPM meshfree approach shows excellent behavior for 2D linear static thermoelasticity problems even for complex geometries.}, keywords = {Computational Particle Mechanics}, pubstate = {published}, tppubtype = {article} } In this work, a promising fully coupled meshfree numerical approach is extended and implemented for the first time in the field of linear static thermoelasticity. A real meshfree method, the so-called finite pointset method (FPM), is applied and implemented in order to solve the strong/classical form of the governing partial differential equations for static linear thermoelasticity. Several benchmark problems are numerically solved in order to show the proposed coupled FPM numerical performance. The presented FPM meshfree approach shows excellent behavior for 2D linear static thermoelasticity problems even for complex geometries. |
R.Saucedo-Zendejo, Felix A novel meshfree approach based on the finite pointset method for linear elasticity problems Journal Article Engineering Analysis with Boundary Elements, 136 , pp. 172-185, 2021, ISSN: 0955-7997. Abstract | Links | BibTeX | Etiquetas: Finite pointset method, Meshless method, Navier–Cauchy equations, Solid mechanics @article{EngineeringAnalysiswithBoundaryElements, title = {A novel meshfree approach based on the finite pointset method for linear elasticity problems}, author = {Felix R.Saucedo-Zendejo}, url = {https://doi.org/10.1016/j.enganabound.2021.12.011 https://www.sciencedirect.com/science/article/pii/S0955799721003647}, doi = {10.1016}, issn = {0955-7997}, year = {2021}, date = {2021-03-16}, journal = {Engineering Analysis with Boundary Elements}, volume = {136}, pages = {172-185}, abstract = {In this work a promising novel meshfree numerical formulation with improved accuracy based on the finite pointset method (FPM) is reported and implemented for the first time for linear elasticity problems. This truly meshfree approach is applied in order to solve the governing partial differential equations, the Navier–Cauchy equations. The numerical results of some 2D and 3D classical and well-known benchmark examples using this formulation are reported and compared with a previous FPM formulation which demonstrate the improvement in accuracy, and finally, the numerical solution of a three-dimensional realistic example is reported which suggest that the presented FPM approach is promising and feasible for this kind of problems in solid mechanics.}, keywords = {Finite pointset method, Meshless method, Navier–Cauchy equations, Solid mechanics}, pubstate = {published}, tppubtype = {article} } In this work a promising novel meshfree numerical formulation with improved accuracy based on the finite pointset method (FPM) is reported and implemented for the first time for linear elasticity problems. This truly meshfree approach is applied in order to solve the governing partial differential equations, the Navier–Cauchy equations. The numerical results of some 2D and 3D classical and well-known benchmark examples using this formulation are reported and compared with a previous FPM formulation which demonstrate the improvement in accuracy, and finally, the numerical solution of a three-dimensional realistic example is reported which suggest that the presented FPM approach is promising and feasible for this kind of problems in solid mechanics. |
Bartolo de Jesús Villar-Hernández Sergio Pérez-Elizalde, Johannes Martini Fernando Toledo Perez-Rodriguez Margaret Krause Irma Delia García-Calvillo Giovanny Covarrubias-Pazaran José Crossa W R P Application of multi-trait Bayesian decision theory for parental genomic selection Journal Article 11 (2), pp. 14, 2021, ISSN: 2160-1836. Abstract | Links | BibTeX | Etiquetas: G3 Genes|Genomes|Genetics @article{jkab012, title = {Application of multi-trait Bayesian decision theory for parental genomic selection}, author = {Bartolo de Jesús Villar-Hernández, Sergio Pérez-Elizalde, Johannes W R Martini, Fernando Toledo, P Perez-Rodriguez, Margaret Krause, Irma Delia García-Calvillo, Giovanny Covarrubias-Pazaran, José Crossa}, url = {https://academic.oup.com/g3journal/article-pdf/11/2/jkab012/37041735/jkab012.pdf}, doi = {10.1093/g3journal/jkab012}, issn = {2160-1836}, year = {2021}, date = {2021-01-20}, volume = {11}, number = {2}, pages = {14}, abstract = {In all breeding programs, the decision about which individuals to select and intermate to form the next selection cycle is crucial. The improvement of genetic stocks requires considering multiple traits simultaneously, given that economic value and net genetic merits depend on many traits; therefore, with the advance of computational and statistical tools and genomic selection (GS), researchers are focusing on multi-trait selection. Selection of the best individuals is difficult, especially in traits that are antagonistically correlated, where improvement in one trait might imply a reduction in other(s). There are approaches that facilitate multi-trait selection, and recently a Bayesian decision theory (BDT) has been proposed. Parental selection using BDT has the potential to be effective in multi-trait selection given that it summarizes all relevant quantitative genetic concepts such as heritability, response to selection and the structure of dependence between traits (correlation). In this study, we applied BDT to provide a treatment for the complexity of multi-trait parental selection using three multivariate loss functions (LF), Kullback–Leibler (KL), Energy Score, and Multivariate Asymmetric Loss (MALF), to select the best-performing parents for the next breeding cycle in two extensive real wheat data sets. Results show that the high ranking lines in genomic estimated breeding value (GEBV) for certain traits did not always have low values for the posterior expected loss (PEL). For both data sets, the KL LF gave similar importance to all traits including grain yield. In contrast, the Energy Score and MALF gave a better performance in three of four traits that were different than grain yield. The BDT approach should help breeders to decide based not only on the GEBV per se of the parent to be selected, but also on the level of uncertainty according to the Bayesian paradigm.}, keywords = {G3 Genes|Genomes|Genetics}, pubstate = {published}, tppubtype = {article} } In all breeding programs, the decision about which individuals to select and intermate to form the next selection cycle is crucial. The improvement of genetic stocks requires considering multiple traits simultaneously, given that economic value and net genetic merits depend on many traits; therefore, with the advance of computational and statistical tools and genomic selection (GS), researchers are focusing on multi-trait selection. Selection of the best individuals is difficult, especially in traits that are antagonistically correlated, where improvement in one trait might imply a reduction in other(s). There are approaches that facilitate multi-trait selection, and recently a Bayesian decision theory (BDT) has been proposed. Parental selection using BDT has the potential to be effective in multi-trait selection given that it summarizes all relevant quantitative genetic concepts such as heritability, response to selection and the structure of dependence between traits (correlation). In this study, we applied BDT to provide a treatment for the complexity of multi-trait parental selection using three multivariate loss functions (LF), Kullback–Leibler (KL), Energy Score, and Multivariate Asymmetric Loss (MALF), to select the best-performing parents for the next breeding cycle in two extensive real wheat data sets. Results show that the high ranking lines in genomic estimated breeding value (GEBV) for certain traits did not always have low values for the posterior expected loss (PEL). For both data sets, the KL LF gave similar importance to all traits including grain yield. In contrast, the Energy Score and MALF gave a better performance in three of four traits that were different than grain yield. The BDT approach should help breeders to decide based not only on the GEBV per se of the parent to be selected, but also on the level of uncertainty according to the Bayesian paradigm. |
R Ojeda, Reyes-Valdés J 34 (1), pp. 34, 2021, ISSN: 0120-338X. Abstract | Links | BibTeX | Etiquetas: Forma y Función @article{0120-338X, title = {Una propuesta de herramientas informáticas para el tratamiento estadístico del índice de disponibilidad léxica en estudios correlacionales de educación y movilidad social}, author = {R, Ojeda, J. Reyes-Valdés}, url = {http://dx.doi.org/10.15446/fyf.v34n1.80581}, doi = {80581}, issn = {0120-338X}, year = {2021}, date = {2021-01-01}, volume = {34}, number = {1}, pages = {34}, abstract = {El trabajo plantea una propuesta para el procesamiento de índices de disponibilidad léxica (ámbito educativo) mediante herramientas estadísticas más eficientes que las usadas en la última década. El planteamiento asociado deriva una ruta de ejercicio interdisciplinar entre lingüistas y estadísticos que capitaliza los corpus lingüísticos, tratándolos como estudios correlacionales dentro del marco de la minería de datos. Se muestran resultados iniciales de la fase cuantitativa del estudio. La escuela secundaria como reguladora de los factores discursivos correlativos entre disponibilidad léxica y movilidad social, procesados con metodología de lingüística de corpus y estadístico libre, correlacionando, con alta eficiencia, índices de disponibilidad léxica y perspectiva de movilidad social en alumnos de secundaria en Saltillo, Coahuila, México, y como un corpus viable de ser correlacionado con bases de datos parciales o censuales para la toma de decisiones en el aula y la política pública por la posibilidad de correlación entre bases de datos.}, keywords = {Forma y Función}, pubstate = {published}, tppubtype = {article} } El trabajo plantea una propuesta para el procesamiento de índices de disponibilidad léxica (ámbito educativo) mediante herramientas estadísticas más eficientes que las usadas en la última década. El planteamiento asociado deriva una ruta de ejercicio interdisciplinar entre lingüistas y estadísticos que capitaliza los corpus lingüísticos, tratándolos como estudios correlacionales dentro del marco de la minería de datos. Se muestran resultados iniciales de la fase cuantitativa del estudio. La escuela secundaria como reguladora de los factores discursivos correlativos entre disponibilidad léxica y movilidad social, procesados con metodología de lingüística de corpus y estadístico libre, correlacionando, con alta eficiencia, índices de disponibilidad léxica y perspectiva de movilidad social en alumnos de secundaria en Saltillo, Coahuila, México, y como un corpus viable de ser correlacionado con bases de datos parciales o censuales para la toma de decisiones en el aula y la política pública por la posibilidad de correlación entre bases de datos. |
2020 |
Sánchez-Carrera, Edgar; Avalos-Gaytán, Vanesa; Cardona-Valdés, Yajaira Synchronization of globalized economies Journal Article University of Urbino Carlo Bo, Department of Economics, Society & Politics - Scientific Committee - L. Stefanini & G. Travaglini, (1909), pp. 23, 2020, ISSN: 1974-4110. Abstract | Links | BibTeX | Etiquetas: Business cycles, Complex systems, Economics of globalization, Network Topology, Synchronization, Trade Integration @article{WP_19_09, title = {Synchronization of globalized economies}, author = {Edgar Sánchez-Carrera and Vanesa Avalos-Gaytán and Yajaira Cardona-Valdés}, url = {http://www.econ.uniurb.it/RePEc/urb/wpaper/WP_19_09.pdf}, issn = {1974-4110}, year = {2020}, date = {2020-06-24}, journal = {University of Urbino Carlo Bo, Department of Economics, Society & Politics - Scientific Committee - L. Stefanini & G. Travaglini}, number = {1909}, pages = {23}, abstract = {Does the synchronization of globalized-oscillating economies matter for macroeconomic outcomes? If so, how oscillating economies are synchornized and conform stable networks. In this paper we apply phase oscillator models such as Kuramoto’s model to understand synchronization phenomena in net- works of countries. Our aim is to study a network of interacting phase oscillating economies, and an adaptation mechanism for the coupling that promotes the connection strengths between those elements that are dynamically correlated. Under these circumstances, the dynamical organization of the oscil- lators/economies shapes the topology of the graph in such a way that modularity and assortativity features emerge spontaneously and simultaneously. Our results show the conformation of the network and the global and local synchronization measures for the 42 oscillating economies during the period from 1960 to 2018, using Trade (% of GDP) data. Moreover, we obtain the measure of local assortativ- ity in the formation of those economies that more or less interact or are connected. We conclude that the Kuramoto model with networks is a useful tool to study economics synchronization. }, keywords = {Business cycles, Complex systems, Economics of globalization, Network Topology, Synchronization, Trade Integration}, pubstate = {published}, tppubtype = {article} } Does the synchronization of globalized-oscillating economies matter for macroeconomic outcomes? If so, how oscillating economies are synchornized and conform stable networks. In this paper we apply phase oscillator models such as Kuramoto’s model to understand synchronization phenomena in net- works of countries. Our aim is to study a network of interacting phase oscillating economies, and an adaptation mechanism for the coupling that promotes the connection strengths between those elements that are dynamically correlated. Under these circumstances, the dynamical organization of the oscil- lators/economies shapes the topology of the graph in such a way that modularity and assortativity features emerge spontaneously and simultaneously. Our results show the conformation of the network and the global and local synchronization measures for the 42 oscillating economies during the period from 1960 to 2018, using Trade (% of GDP) data. Moreover, we obtain the measure of local assortativ- ity in the formation of those economies that more or less interact or are connected. We conclude that the Kuramoto model with networks is a useful tool to study economics synchronization. |
Ruiz y Ruiz, E; García-Calvillo, I; Nucamendi-Guillén, S Open vehicle routing problem with split deliveries: mathematical formulations and a cutting-plane method Journal Article Oper Res Int J (2020), 2020. Abstract | Links | BibTeX | Etiquetas: Cutting-plane method, Logistic distribution, Mixed integer programming, Open vehicle routing problem, Split delivery @article{OperResIntJ(2020), title = {Open vehicle routing problem with split deliveries: mathematical formulations and a cutting-plane method}, author = {Ruiz y Ruiz, E. and García-Calvillo, I. and Nucamendi-Guillén, S.}, url = {https://doi.org/10.1007/s12351-020-00580-8}, year = {2020}, date = {2020-06-22}, journal = {Oper Res Int J (2020)}, abstract = {This study addresses the open vehicle routing problem with split deliveries, a variant of the classical vehicle routing problem that allows open routes and partitioned deliveries for customers (i.e., multiple vehicles may serve one customer). This approach may be beneficial for companies interested in reducing their logistics and distribution costs. This study is motivated by a company in the pharmaceutical industry, that seeks to explore the possibility of splitting their deliveries to improve quality indicators related to on-time deliveries and customer satisfaction. Two mixed-integer formulations of the problem are proposed. Additionally, a cutting-plane method is designed to improve the optimization performance. Computational experiments were conducted to validate the performance of the formulations. The second formulation effectiveness was confirmed by providing optimal solutions for instances of up to 30 nodes in a reasonable computational time. The incorporation of the cutting-plane method improves performance with a substantial reduction in the GAP. In the case study, this new approach shows its effectiveness in economic terms by providing savings of up to 20% of the current distribution costs.}, keywords = {Cutting-plane method, Logistic distribution, Mixed integer programming, Open vehicle routing problem, Split delivery}, pubstate = {published}, tppubtype = {article} } This study addresses the open vehicle routing problem with split deliveries, a variant of the classical vehicle routing problem that allows open routes and partitioned deliveries for customers (i.e., multiple vehicles may serve one customer). This approach may be beneficial for companies interested in reducing their logistics and distribution costs. This study is motivated by a company in the pharmaceutical industry, that seeks to explore the possibility of splitting their deliveries to improve quality indicators related to on-time deliveries and customer satisfaction. Two mixed-integer formulations of the problem are proposed. Additionally, a cutting-plane method is designed to improve the optimization performance. Computational experiments were conducted to validate the performance of the formulations. The second formulation effectiveness was confirmed by providing optimal solutions for instances of up to 30 nodes in a reasonable computational time. The incorporation of the cutting-plane method improves performance with a substantial reduction in the GAP. In the case study, this new approach shows its effectiveness in economic terms by providing savings of up to 20% of the current distribution costs. |
Sanchez, Edgar; Policardo, L; García, A; Accinelli, E A Co-evolutionary Model for Human Capital and Innovative Firms Journal Article Games and Dynamics in Economics, pp. 17-32, 2020, ISBN: 978-981-15-3623-6. Abstract | Links | BibTeX | Etiquetas: Behavioral macroeconomics, Economic growth, Evolutionary dynamics, Innovative firms, Skilled labor @article{978-981-15-3623-6_2, title = {A Co-evolutionary Model for Human Capital and Innovative Firms}, author = {Edgar Sanchez and L. Policardo and A. García and E. Accinelli }, url = {https://link.springer.com/chapter/10.1007/978-981-15-3623-6_2}, doi = {https://doi.org/10.1007/978-981-15-3623-6_2}, isbn = {978-981-15-3623-6}, year = {2020}, date = {2020-04-12}, journal = {Games and Dynamics in Economics}, pages = {17-32}, abstract = {The paper aims to study the co-evolution dynamics of human capital and innovative firms by means of an evolutionary game theory model. We analyze the properties of the model, showing that if the demand for skilled labor is higher than its supply, then innovative firms may have an incentive to become non-innovative and stop hiring skilled workers. If, by contrast, the supply of skilled labor is higher than its demand, then there could be incentives for non-innovative firms to become innovative. Then, we introduce the dynamic extension of the model, applying a replicator dynamics equation for the fraction of innovative firms and the fraction of skilled workers. The steady states of the system are identified and as the most interesting one, the interior steady state, is discussed. Subsequently some simplified versions of the model are proposed and studied. By means of such analysis, we claim that a policy oriented to increasing the stock of skilled labor can set the economy on a positive path towards technological development.}, keywords = {Behavioral macroeconomics, Economic growth, Evolutionary dynamics, Innovative firms, Skilled labor}, pubstate = {published}, tppubtype = {article} } The paper aims to study the co-evolution dynamics of human capital and innovative firms by means of an evolutionary game theory model. We analyze the properties of the model, showing that if the demand for skilled labor is higher than its supply, then innovative firms may have an incentive to become non-innovative and stop hiring skilled workers. If, by contrast, the supply of skilled labor is higher than its demand, then there could be incentives for non-innovative firms to become innovative. Then, we introduce the dynamic extension of the model, applying a replicator dynamics equation for the fraction of innovative firms and the fraction of skilled workers. The steady states of the system are identified and as the most interesting one, the interior steady state, is discussed. Subsequently some simplified versions of the model are proposed and studied. By means of such analysis, we claim that a policy oriented to increasing the stock of skilled labor can set the economy on a positive path towards technological development. |
Policardo, L; Sanchez-Carrera, Edgar Can income inequality promote democratization? Journal Article Metroeconomica, 71 (3), pp. 510-532, 2020. Abstract | Links | BibTeX | Etiquetas: Inequality @article{meca.12287, title = {Can income inequality promote democratization?}, author = {L. Policardo and Edgar Sanchez-Carrera }, url = {https://onlinelibrary.wiley.com/doi/abs/10.1111/meca.12287}, year = {2020}, date = {2020-03-15}, journal = {Metroeconomica}, volume = {71}, number = {3}, pages = {510-532}, abstract = {The aim of this paper is to study the effect of income inequality on the probability of democratization, in a panel of 51 transition countries during the period 1960–2008. Using a conditional fixed‐effect logit estimation, we find robust results suggesting that income inequality (measured by the Gini index of household’s income inequality) has an inverse—U‐shaped relation with the probability of transition from autarchy to democracy. We show that there is a turning point at a level of household’s income inequality equal to a Gini index of 40. When income inequality is below 40, then probability of transition is positively related to inequality, but when inequality is higher, a subsequent increase in inequality decreases the probability of democratization. This is consistent with Acemoglu and Robinson’s theory that shows how transitions are likeliest at moderate levels of inequality, while autocracy is likelier at the lowest and highest levels of inequality.}, keywords = {Inequality}, pubstate = {published}, tppubtype = {article} } The aim of this paper is to study the effect of income inequality on the probability of democratization, in a panel of 51 transition countries during the period 1960–2008. Using a conditional fixed‐effect logit estimation, we find robust results suggesting that income inequality (measured by the Gini index of household’s income inequality) has an inverse—U‐shaped relation with the probability of transition from autarchy to democracy. We show that there is a turning point at a level of household’s income inequality equal to a Gini index of 40. When income inequality is below 40, then probability of transition is positively related to inequality, but when inequality is higher, a subsequent increase in inequality decreases the probability of democratization. This is consistent with Acemoglu and Robinson’s theory that shows how transitions are likeliest at moderate levels of inequality, while autocracy is likelier at the lowest and highest levels of inequality. |
Soto-Mendoza, V; García-Calvillo, I; Ruiz-y-Ruiz, E; J., Pérez-Terrazas A Hybrid Grasshopper Optimization Algorithm Applied to the Open Vehicle Routing Problem Journal Article Algorithms , 13 (96), 2020. Abstract | Links | BibTeX | Etiquetas: Algorithms, Combinatorial optimization, Grasshopper optimization algorithm, Open vehicle routing problem, Optimization @article{Algorithms20201396, title = {A Hybrid Grasshopper Optimization Algorithm Applied to the Open Vehicle Routing Problem}, author = {Soto-Mendoza, V. and García-Calvillo, I. and Ruiz-y-Ruiz, E. and Pérez-Terrazas J.}, url = {https://doi.org/10.3390/a13040096}, year = {2020}, date = {2020-03-03}, journal = {Algorithms }, volume = {13}, number = {96}, abstract = {This paper presents a hybrid grasshopper optimization algorithm using a novel decoder and local search to solve instances of the open vehicle routing problem with capacity and distance constraints. The algorithm’s decoder first defines the number of vehicles to be used and then it partitions the clients, assigning them to the available routes. The algorithm performs a local search in three neighborhoods after decoding. When a new best solution is found, every route is locally optimized by solving a traveling salesman problem, considering the depot and clients in the route. Three sets containing a total of 30 benchmark problems from the literature were used to test the algorithm. The experiments considered two cases of the problem. In the first, the primary objective is to minimize the total number of vehicles and then the total distance to be traveled. In the second case, the total distance traveled by the vehicles is minimized. The obtained results showed the algorithm’s proficient performance. For the first case, the algorithm was able to improve or match the best-known solutions for 21 of the 30 benchmark problems. For the second case, the best-known solutions for 18 of the 30 benchmark problems were found or improved by the algorithm. Finally, a case study from a real-life problem is included}, keywords = {Algorithms, Combinatorial optimization, Grasshopper optimization algorithm, Open vehicle routing problem, Optimization}, pubstate = {published}, tppubtype = {article} } This paper presents a hybrid grasshopper optimization algorithm using a novel decoder and local search to solve instances of the open vehicle routing problem with capacity and distance constraints. The algorithm’s decoder first defines the number of vehicles to be used and then it partitions the clients, assigning them to the available routes. The algorithm performs a local search in three neighborhoods after decoding. When a new best solution is found, every route is locally optimized by solving a traveling salesman problem, considering the depot and clients in the route. Three sets containing a total of 30 benchmark problems from the literature were used to test the algorithm. The experiments considered two cases of the problem. In the first, the primary objective is to minimize the total number of vehicles and then the total distance to be traveled. In the second case, the total distance traveled by the vehicles is minimized. The obtained results showed the algorithm’s proficient performance. For the first case, the algorithm was able to improve or match the best-known solutions for 21 of the 30 benchmark problems. For the second case, the best-known solutions for 18 of the 30 benchmark problems were found or improved by the algorithm. Finally, a case study from a real-life problem is included |
Bridaa, Juan Gabriel ; Sanchez Carrera, Edgar J; Segarraa, Verónica Clustering and regime dynamics for economic growth and income inequality, Structural Change and Economic Dynamics Journal Article ELSEVIER, 52 , pp. 99-108, 2020, ISSN: 0954-349X. Abstract | Links | BibTeX | Etiquetas: Data symbolization, Dynamic panel data, Granger causality, Inequality-growth regimes, Minimum spanning tree, Multidimensional clustering methods @article{j.strueco.2019.09.010, title = {Clustering and regime dynamics for economic growth and income inequality, Structural Change and Economic Dynamics}, author = {Bridaa, Juan Gabriel and Sanchez Carrera, Edgar J. and Segarraa, Verónica}, url = {https://www.sciencedirect.com/science/article/pii/S0954349X18303953?via%3Dihub}, issn = {0954-349X}, year = {2020}, date = {2020-03-01}, journal = {ELSEVIER}, volume = {52}, pages = {99-108}, abstract = {This study explores the dynamic relationship between income inequality and economic growth by using a non-parametric approach and numerical taxonomy as a research method based on data symbolization and clustering methods. The study uses annual data of the GINI index (considering two databases, i.e. the Standardized World Income Inequality Database (SWIID) and the Estimated Household Income Inequality Data Set (EHII)) and the Per Capita GDP Growth Rates (economic growth variable) for two samples, i.e. 38 countries between 1980 and 2015, and 23 countries during the period 1980–2010. This novel methodology is used to detect the existence of clusters of countries sharing similar economic performance that are characterized by the income inequality variable. Once the homogeneous clusters are fixed, using a dynamic econometric approach, we study the Granger causal relationship between economic growth and income inequality, and the positive or negative long-run effects. Our results show that in advanced economies there is an economic growth policy supporting income distribution, while in poor or developing economies economic growth is enhanced by income concentration.}, keywords = {Data symbolization, Dynamic panel data, Granger causality, Inequality-growth regimes, Minimum spanning tree, Multidimensional clustering methods}, pubstate = {published}, tppubtype = {article} } This study explores the dynamic relationship between income inequality and economic growth by using a non-parametric approach and numerical taxonomy as a research method based on data symbolization and clustering methods. The study uses annual data of the GINI index (considering two databases, i.e. the Standardized World Income Inequality Database (SWIID) and the Estimated Household Income Inequality Data Set (EHII)) and the Per Capita GDP Growth Rates (economic growth variable) for two samples, i.e. 38 countries between 1980 and 2015, and 23 countries during the period 1980–2010. This novel methodology is used to detect the existence of clusters of countries sharing similar economic performance that are characterized by the income inequality variable. Once the homogeneous clusters are fixed, using a dynamic econometric approach, we study the Granger causal relationship between economic growth and income inequality, and the positive or negative long-run effects. Our results show that in advanced economies there is an economic growth policy supporting income distribution, while in poor or developing economies economic growth is enhanced by income concentration. |
Saucedo-Zendejo, Felix R; Reséndiz-Flores, Edgar O Meshfree numerical approach based on the Finite Pointset Method for static linear elasticity problems Journal Article Computer Methods in Applied Mechanics and Engineering, 372 , pp. 113367, 2020. BibTeX | Etiquetas: @article{saucedo2020meshfree, title = {Meshfree numerical approach based on the Finite Pointset Method for static linear elasticity problems}, author = {Felix R Saucedo-Zendejo and Edgar O Reséndiz-Flores}, year = {2020}, date = {2020-01-01}, journal = {Computer Methods in Applied Mechanics and Engineering}, volume = {372}, pages = {113367}, publisher = {Elsevier}, keywords = {}, pubstate = {published}, tppubtype = {article} } |
Nuñez-Briones, AG; Benavides, R; Mendoza-Mendoza, E; Martínez-Pardo, ME; Carrasco-Abrego, H; Kotzian, C; Saucedo-Zendejo, FR; García-Cerda, LA Preparation of PVC/Bi2O3 composites and their evaluation as low energy X-Ray radiation shielding Journal Article Radiation Physics and Chemistry, pp. 109198, 2020. BibTeX | Etiquetas: @article{nunez2020preparation, title = {Preparation of PVC/Bi2O3 composites and their evaluation as low energy X-Ray radiation shielding}, author = {AG Nuñez-Briones and R Benavides and E Mendoza-Mendoza and ME Martínez-Pardo and H Carrasco-Abrego and C Kotzian and FR Saucedo-Zendejo and LA García-Cerda}, year = {2020}, date = {2020-01-01}, journal = {Radiation Physics and Chemistry}, pages = {109198}, publisher = {Elsevier}, keywords = {}, pubstate = {published}, tppubtype = {article} } |
Altamirano-Guerrero, Gerardo; García-Calvillo, Irma D; Reséndiz-Flores, Edgar O; Costa, Patricia; Salinas-Rodríguez, Armando; Goodwin, Frank Intelligent design in continuous galvanizing process for advanced ultra-high-strength dual-phase steels using back-propagation artificial neural networks and MOAMP-Squirrels search algorithm Journal Article The International Journal of Advanced Manufacturing Technology, pp. 1–12, 2020. BibTeX | Etiquetas: @article{altamirano2020intelligent, title = {Intelligent design in continuous galvanizing process for advanced ultra-high-strength dual-phase steels using back-propagation artificial neural networks and MOAMP-Squirrels search algorithm}, author = {Gerardo Altamirano-Guerrero and Irma D García-Calvillo and Edgar O Reséndiz-Flores and Patricia Costa and Armando Salinas-Rodríguez and Frank Goodwin}, year = {2020}, date = {2020-01-01}, journal = {The International Journal of Advanced Manufacturing Technology}, pages = {1--12}, publisher = {Springer}, keywords = {}, pubstate = {published}, tppubtype = {article} } |
Navarro-Acosta, Jesús Alejandro; García-Calvillo, Irma D; Avalos-Gaytán, Vanesa; Reséndiz-Flores, Edgar O Metaheuristics and Support Vector Data Description for Fault Detection in Industrial Processes Journal Article Applied Sciences, 10 (24), 2020, ISSN: 2076-3417. Abstract | Links | BibTeX | Etiquetas: @article{app10249145, title = {Metaheuristics and Support Vector Data Description for Fault Detection in Industrial Processes}, author = {Jesús Alejandro Navarro-Acosta and Irma D García-Calvillo and Vanesa Avalos-Gaytán and Edgar O Reséndiz-Flores}, url = {https://www.mdpi.com/2076-3417/10/24/9145}, doi = {10.3390/app10249145}, issn = {2076-3417}, year = {2020}, date = {2020-01-01}, journal = {Applied Sciences}, volume = {10}, number = {24}, abstract = {In this study, a system for faults detection using a combination of Support Vector Data Description (SVDD) with metaheuristic algorithms is presented. The presented approach is applied to a real industrial process where the set of measured faults is scarce. The original contribution in this work is the industrial context of application and the comparison of swarm intelligence algorithms to optimize the SVDD hyper-parameters. Four recent metaheuristics are compared hereby to solve the corresponding optimization problem in an efficient manner. These optimization techniques are then implemented for fault detection in a multivariate industrial process with non-balanced data. The obtained numerical results seem to be promising when the considered optimization techniques are combined with SVDD. In particular, the Spotted Hyena algorithm outperforms other metaheuristics reaching values of F1 score near 100% in fault detection.}, keywords = {}, pubstate = {published}, tppubtype = {article} } In this study, a system for faults detection using a combination of Support Vector Data Description (SVDD) with metaheuristic algorithms is presented. The presented approach is applied to a real industrial process where the set of measured faults is scarce. The original contribution in this work is the industrial context of application and the comparison of swarm intelligence algorithms to optimize the SVDD hyper-parameters. Four recent metaheuristics are compared hereby to solve the corresponding optimization problem in an efficient manner. These optimization techniques are then implemented for fault detection in a multivariate industrial process with non-balanced data. The obtained numerical results seem to be promising when the considered optimization techniques are combined with SVDD. In particular, the Spotted Hyena algorithm outperforms other metaheuristics reaching values of F1 score near 100% in fault detection. |
2019 |
Sifuentes, A; García, I; Reséndiz, E; Ruíz, E FJSP: Una aplicación para la reducción del tiempo de espera en el proceso de fabricación del perno de seguridad para cargadoras Journal Article Proceeding of the XIX Latin-Iberoamerican Conference on Operation Research, CLAIO 2018, pp. 807-814, 2019, ISBN: 978-612-48146-1-7. @article{978-612-48146-1-7, title = {FJSP: Una aplicación para la reducción del tiempo de espera en el proceso de fabricación del perno de seguridad para cargadoras}, author = {A. Sifuentes and I. García and E. Reséndiz and E. Ruíz}, url = {http://www.investigacionyposgrado.uadec.mx/site/wp-content/uploads/2020/05/ArticuloArbitrado_2.pdf}, isbn = {978-612-48146-1-7}, year = {2019}, date = {2019-11-01}, journal = {Proceeding of the XIX Latin-Iberoamerican Conference on Operation Research, CLAIO 2018}, pages = {807-814}, keywords = {}, pubstate = {published}, tppubtype = {article} } |
Navarro-Acosta, Jesús Alejandro; Reséndiz-Flores, Edgar Omar; García-Calvillo, Irma Delia Research in Computing Science , 148 (7), pp. 37–50, 2019, ISSN: 1870-4069. Links | BibTeX | Etiquetas: Feature selection @article{1870-4069, title = {Selección óptima de variables mediante metaheurísticas binarias para la detección de fallas en un proceso industrial multivariado usando aprendizaje de máquina}, author = {Jesús Alejandro Navarro-Acosta and Edgar Omar Reséndiz-Flores and Irma Delia García-Calvillo}, url = {http://www.investigacionyposgrado.uadec.mx/site/wp-content/uploads/2020/05/ArticuloArbitrado1.pdf}, issn = {1870-4069}, year = {2019}, date = {2019-07-01}, journal = {Research in Computing Science }, volume = {148}, number = {7}, pages = {37–50}, keywords = {Feature selection}, pubstate = {published}, tppubtype = {article} } |
Ruiz, Efrain; Soto-Mendoza, Valeria; Barbosa, Alvaro Ernesto Ruiz; Reyes, Ricardo Solving the open vehicle routing problem with capacity and distance constraints with a biased random key genetic algorithm Journal Article Computers & Industrial Engineering, 133 , pp. 207–219, 2019. BibTeX | Etiquetas: Open vehicle routing problem @article{ruiz2019solvingb, title = {Solving the open vehicle routing problem with capacity and distance constraints with a biased random key genetic algorithm}, author = {Efrain Ruiz and Valeria Soto-Mendoza and Alvaro Ernesto Ruiz Barbosa and Ricardo Reyes}, year = {2019}, date = {2019-01-01}, journal = {Computers & Industrial Engineering}, volume = {133}, pages = {207--219}, publisher = {Elsevier}, keywords = {Open vehicle routing problem}, pubstate = {published}, tppubtype = {article} } |
Reséndiz-Flores, Edgar O; Navarro-Acosta, Jesús A; Hernández-Martínez, Agustín Optimal feature selection in industrial foam injection processes using hybrid binary Particle Swarm Optimization and Gravitational Search Algorithm in the Mahalanobis--Taguchi System Journal Article Soft Computing, pp. 1–9, 2019. BibTeX | Etiquetas: Feature selection @article{resendiz2019optimale, title = {Optimal feature selection in industrial foam injection processes using hybrid binary Particle Swarm Optimization and Gravitational Search Algorithm in the Mahalanobis--Taguchi System}, author = {Edgar O Reséndiz-Flores and Jesús A. Navarro-Acosta and Agustín Hernández-Martínez}, year = {2019}, date = {2019-01-01}, journal = {Soft Computing}, pages = {1--9}, publisher = {Springer}, keywords = {Feature selection}, pubstate = {published}, tppubtype = {article} } |
Publicaciones
2024 |
Evolutionary Semi-Vectorial Bilevel Optimization in the mechanical and control design of systems Journal Article Engineering Applications of Artificial Intelligence, 133 , pp. 108640, 2024, ISSN: 0952-1976. |
A comprehensive dataset integrating household energy consumption and weather conditions in a north-eastern Mexican urban city Journal Article Data in Brief, 54 , pp. 110452, 2024, ISSN: 2352-3409. |
IoT-based system for campus community security Journal Article Internet of Things, 26 , pp. 101179, 2024, ISSN: 2542-6605. |
A GFDM approach based on the finite pointset method for two-dimensional piezoelectric problems Journal Article Engineering Analysis with Boundary Elements, 163 , pp. 12-22, 2024, ISSN: 0955-7997. |
Trading de criptomonedas mediante algoritmos de aprendizaje por refuerzo profundo y aprendizaje automático Journal Article 12 , 2024. |
Representation of Expert Knowledge on Product Design Problems Using Fuzzy Cognitive Maps Journal Article 14502 , pp. 385–396, 2024, ISBN: 978-3-031-51940-6. |
2023 |
A location-routing problem for local supply chains, Computers & Industrial Engineering Journal Article Computers & Industrial Engineering, 183 , pp. 109528, 2023, ISSN: 0360-8352. |
Ultrasound Treatment of AMg5 Aluminum–Magnesium Alloy Samples Produced from Wire: Experimental Data Journal Article Russian Engineering Research, 43 , pp. 866-869, 2023. |
On Mexican poverty-trap regimes and struggling to escape them Journal Article Cambridge University Press, pp. 1–29, 2023. |
On optimal lockdown policies while facing socioeconomic costs Journal Article Annals of Operations Research, 2023, ISSN: 1572-9338. |
Algebraic Reconstruction of Beam’s Spatial Characteristics in Electron Beam Welding Journal Article Russian Engineering Research, 43 , pp. 474–478 , 2023, ISSN: 1934-8088. |
"Multiobjective Bilevel Optimization: A Survey of the State-of-the-Art" Journal Article IEEE Transactions on Systems, Man, and Cybernetics: Systems, 59 (9), pp. 5478-5490, 2023, ISSN: 2168-2216. |
Policy choices and compliance behavior in pandemic times Journal Article Journal of Economic Interaction and Coordination, 2023. |
A capacitated lot-sizing problem in the industrial fashion sector under uncertainty: a conditional value-at-risk framework Journal Article International Journal of Production Research, 61 (21), pp. 7181–7197, 2023. |
Kernel-based hybrid multi-objective optimization algorithm (KHMO) Journal Article Information Sciences, 624 , pp. 416-434, 2023, ISSN: 0020-0255. |
Information Visualization Dashboard to Proctor Test-Takers During an Online Language Proficiency Test Journal Article Interacting with Computers, 2023, ISSN: 1873-7951. |
2022 |
A capacitated lot-sizing problem in the industrial fashion sector under uncertainty: a conditional value-at-risk framework Journal Article International Journal of Production Research, pp. 1-17, 2022. |
Control of Three-Dimensional Surfacing Journal Article Russian Engineering Research, 42 , pp. 1058-1060, 2022, ISSN: 1934-8088. |
Modelling the effect of vibrations on the surface tension of a liquid droplet using meshless methods Journal Article PNRPU Mechanics Bulletin, (2), pp. 73–84, 2022, ISSN: 2226-1869. |
A mixed integer formulation and an efficient metaheuristic for the unrelated parallel machine scheduling problem: Total tardiness minimization Journal Article EURO Journal on Computational Optimization, 10 , pp. 100034, 2022, ISSN: 2192-4406. |
Bi-objective stochastic model for the design of biofuel supply chains incorporating risk Journal Article Expert Systems with Applications, 202 (117-285), pp. 117-285, 2022, ISSN: 0957-4174. |
Speaker Identification in Interactions between Mothers and Children with Down Syndrome via Audio Analysis: A Case Study in Mexico Journal Article pp. 1-16, 2022. |
Fault detection based on squirrel search algorithm and support vector data description for industrial processes Journal Article 2022, ISSN: 1433-7479. |
Meshfree numerical approach based on the finite pointset method for two-way coupled transient linear thermoelasticity Journal Article 2022, ISSN: 2196-4386. |
On the economic growth equilibria during the Covid-19 pandemic Journal Article Communications in Nonlinear Science and Numerical Simulation, pp. 36, 2022, ISSN: 1007-5704. |
Open vehicle routing problem with split deliveries: mathematical formulations and a cutting-plane method Journal Article Operational Research, 2022, ISSN: 1866-1505. |
A novel meshfree approach based on the finite pointset method for linear elasticity problems Journal Article Engineering Analysis with Boundary Elements, 136 (0), pp. 172-185, 2022, ISSN: 0955-7997. |
No-linealidades entre el bienestar y la calidad-efectividad de las políticas públicas en México Journal Article Equilibrio Económico, 18 (53), 2022, ISSN: 2007-2627. |
Smart fault detection and optimal variables identification using Kernel Mahalanobis Distance for industrial manufacturing processes Journal Article International Journal of Computer Integrated Manufacturing, 0 (0), pp. 1-9, 2022, ISSN: 0951-192X. |
2021 |
A novel approach to model the flow of generalized Newtonian fluids with the finite pointset method. Journal Article Computational Particle Mechanics, 2021, ISSN: 2196-4386. |
Growth and inequality in the Mexican states:Regimes, thresholds, and traps Journal Article Papers in Regional Science, 100 (5), pp. 29, 2021. |
Evaluación psicológica de profesores y alumnos mexicanos durante la pandemia de COVID-19 mediante técnicas de Machine learning Journal Article Ingeniería Investigación y Tecnología, 22 (4), pp. 1-15, 2021, ISSN: 2594-0732. |
Fully coupled meshfree numerical approach based on the finite pointset method for static linear thermoelasticity problems Journal Article Computational Particle Mechanics, pp. 14, 2021, ISSN: 2196-4386. |
A novel meshfree approach based on the finite pointset method for linear elasticity problems Journal Article Engineering Analysis with Boundary Elements, 136 , pp. 172-185, 2021, ISSN: 0955-7997. |
Application of multi-trait Bayesian decision theory for parental genomic selection Journal Article 11 (2), pp. 14, 2021, ISSN: 2160-1836. |
34 (1), pp. 34, 2021, ISSN: 0120-338X. |
2020 |
Synchronization of globalized economies Journal Article University of Urbino Carlo Bo, Department of Economics, Society & Politics - Scientific Committee - L. Stefanini & G. Travaglini, (1909), pp. 23, 2020, ISSN: 1974-4110. |
Open vehicle routing problem with split deliveries: mathematical formulations and a cutting-plane method Journal Article Oper Res Int J (2020), 2020. |
A Co-evolutionary Model for Human Capital and Innovative Firms Journal Article Games and Dynamics in Economics, pp. 17-32, 2020, ISBN: 978-981-15-3623-6. |
Can income inequality promote democratization? Journal Article Metroeconomica, 71 (3), pp. 510-532, 2020. |
A Hybrid Grasshopper Optimization Algorithm Applied to the Open Vehicle Routing Problem Journal Article Algorithms , 13 (96), 2020. |
Clustering and regime dynamics for economic growth and income inequality, Structural Change and Economic Dynamics Journal Article ELSEVIER, 52 , pp. 99-108, 2020, ISSN: 0954-349X. |
Meshfree numerical approach based on the Finite Pointset Method for static linear elasticity problems Journal Article Computer Methods in Applied Mechanics and Engineering, 372 , pp. 113367, 2020. |
Preparation of PVC/Bi2O3 composites and their evaluation as low energy X-Ray radiation shielding Journal Article Radiation Physics and Chemistry, pp. 109198, 2020. |
Intelligent design in continuous galvanizing process for advanced ultra-high-strength dual-phase steels using back-propagation artificial neural networks and MOAMP-Squirrels search algorithm Journal Article The International Journal of Advanced Manufacturing Technology, pp. 1–12, 2020. |
Metaheuristics and Support Vector Data Description for Fault Detection in Industrial Processes Journal Article Applied Sciences, 10 (24), 2020, ISSN: 2076-3417. |
2019 |
FJSP: Una aplicación para la reducción del tiempo de espera en el proceso de fabricación del perno de seguridad para cargadoras Journal Article Proceeding of the XIX Latin-Iberoamerican Conference on Operation Research, CLAIO 2018, pp. 807-814, 2019, ISBN: 978-612-48146-1-7. |
Research in Computing Science , 148 (7), pp. 37–50, 2019, ISSN: 1870-4069. |
Solving the open vehicle routing problem with capacity and distance constraints with a biased random key genetic algorithm Journal Article Computers & Industrial Engineering, 133 , pp. 207–219, 2019. |
Optimal feature selection in industrial foam injection processes using hybrid binary Particle Swarm Optimization and Gravitational Search Algorithm in the Mahalanobis--Taguchi System Journal Article Soft Computing, pp. 1–9, 2019. |