Aplicación de la programación dinámica para resolver el problema simple de balanceo de linea de ensamble

Este documento presenta en forma reducida la aplicación de un algoritmo exacto para solucionar un problema simple de balanceo de línea de ensamble, el algoritmo utilizado es la programación dinámica, se muestran las ventajas y desventajas de usar este método para solucionar problemas de tipo combinatorial

Aplicación de la programación dinámica para resolver el problema simple de balanceo de linea de ensamble

Este documento presenta en forma reducida la aplicación de un algoritmo exacto para solucionar un problema simple de balanceo de línea de ensamble, el algoritmo utilizado es la programación dinámica, se muestran las ventajas y desventajas de usar este método para solucionar problemas de tipo combinatorial

Una heurística de balanceo de línea de producción aplicada a una malla curricular

El principal objetivo de este trabajo es aplicar la heurística de optimización de Helgeson y Birnie para efectuar un balanceo de asignaturas por semestre dentro de una malla curricular. El modelo a utilizar supone semestres que agrupan a diferentes asignaturas, existiendo restricciones de precedencia para cada una de los semestres

Aplicación de la Programación Entera Binaria para Resolver el Problema Simple de Balanceo de Línea de Ensamble: Un Caso de Estudio

Este documento presenta en forma reducida la aplicación de la programación lineal para solucionar un problema simple de balanceo de línea de ensamble. El tipo de programación utilizada es la programación entera binaria, se muestran los pasos de la aplicación de este método para resolver problemas de tipo combinatorio

Aplicación de la Programación Entera Binaria para Resolver el Problema Simple de Balanceo de Línea de Ensamble: Un Caso de Estudio

Este documento presenta en forma reducida la aplicación de la programación lineal para solucionar un problema simple de balanceo de línea de ensamble. El tipo de programación utilizada es la programación entera binaria, se muestran los pasos de la aplicación de este método para resolver problemas de tipo combinatorio

Development of a Graphic User Interface Focused on Multicriteria Analysis among a Plethora of Passive Exoskeletons to Improve the Social Inclusion of Infants in a Smart City

Passive exoskeletons are portable devices that have beneficial functions that can address ergonomic needs taking advantage over other technological supports. They were developed to multiply human power. Passive exoskeletons have been introduced in some industrial environments, but there has been relatively little research that has examined the possible benefits, drawbacks, and tradeoffs of using the exoskeleton in a workplace. These exoskeletons require different approaches towards compliance with requirements such as use, acceptability in the workplace and possible security problems among others. Consequently, the present investigation has planned to evaluate different passive exoskeletons based on criteria such as: cost, multitasking, performance, physical demand, and influence of the mass of the tool. The criteria will be modeled and evaluated with the AHP methodology (Analytical Hierarchy Process), in order to support the acquisition decision, in the present investigation a multicriteria analysis is carried out that will allow identifying which would be the best exoskeleton of its type and how it would help children with some type of motor defect in a Smart City with regard to their social inclusion

Development of a Graphic User Interface Focused on Multicriteria Analysis among a Plethora of Passive Exoskeletons to Improve the Social Inclusion of Infants in a Smart City

Passive exoskeletons are portable devices that have beneficial functions that can address ergonomic needs taking advantage over other technological supports. They were developed to multiply human power. Passive exoskeletons have been introduced in some industrial environments, but there has been relatively little research that has examined the possible benefits, drawbacks, and tradeoffs of using the exoskeleton in a workplace. These exoskeletons require different approaches towards compliance with requirements such as use, acceptability in the workplace and possible security problems among others. Consequently, the present investigation has planned to evaluate different passive exoskeletons based on criteria such as: cost, multitasking, performance, physical demand, and influence of the mass of the tool. The criteria will be modeled and evaluated with the AHP methodology (Analytical Hierarchy Process), in order to support the acquisition decision, in the present investigation a multicriteria analysis is carried out that will allow identifying which would be the best exoskeleton of its type and how it would help children with some type of motor defect in a Smart City with regard to their social inclusion

Development of a Graphic User Interface Focused on Multicriteria Analysis among a Plethora of Passive Exoskeletons to Improve the Social Inclusion of Infants in a Smart City

Passive exoskeletons are portable devices that have beneficial functions that can address ergonomic needs taking advantage over other technological supports. They were developed to multiply human power. Passive exoskeletons have been introduced in some industrial environments, but there has been relatively little research that has examined the possible benefits, drawbacks, and tradeoffs of using the exoskeleton in a workplace. These exoskeletons require different approaches towards compliance with requirements such as use, acceptability in the workplace and possible security problems among others. Consequently, the present investigation has planned to evaluate different passive exoskeletons based on criteria such as: cost, multitasking, performance, physical demand, and influence of the mass of the tool. The criteria will be modeled and evaluated with the AHP methodology (Analytical Hierarchy Process), in order to support the acquisition decision, in the present investigation a multicriteria analysis is carried out that will allow identifying which would be the best exoskeleton of its type and how it would help children with some type of motor defect in a Smart City with regard to their social inclusion