
Fecha y horario:
Modulo 1 (24 hrs): Profesor local
7 al 14 de julio
Lunes a viernes de 8 a 12 m.
Modulo 2 (24 hrs): Profesor internacional
15 y 16 de julio: 7 a 11 a.m. y 2 a 6 p.m.
17 de julio 7 a 12 m.
18 de julio 9 a 12 m.
*Receso de mitad de año del
24 al 28 de junio
7 al 14 de julio
Lunes a viernes de 8 a 12 m.
Modulo 2 (24 hrs): Profesor internacional
15 y 16 de julio: 7 a 11 a.m. y 2 a 6 p.m.
17 de julio 7 a 12 m.
18 de julio 9 a 12 m.
*Receso de mitad de año del
24 al 28 de junio
Modalidad:
Presencial y Acceso Remoto
Intensidad:
48 horas
Profesor:
Profesor local
Humberto Alejandro Barrero Arciniegas, Mg
Profesor internacional
Matteo De Marchi,PhD
Erwin Rauch, PhD
Inversión:
$1´138.000
Descripción
The course provides an integral vision of the Axiomatic Design methodology within the complexity engineering approach for designing engineering systems within the context of Industry 4.0 and 5.0. It focuses on Cyber-Physical Systems supported by data-driven production, Industrial Internet of Things (IIoT), Artificial Intelligence, Digital Twin and advance technologies, emphasizing their transformative impact on the future. Theoretical foundations will focus on the design, planning and implementation of connected machines and resources in production, fostering a comprehensive understanding of the interactions between physical and digital systems in advanced industrial environments.
RAE - Resultados de Aprendizaje Esperado
1. ELO-1:The student will be able to understand and describe the basics in cyber-physical systems, data- driven production, industrial internet of things, digital twin and advanced technologies with a comprehensive perspective of the interactions between physical and digital systems in advanced industrial environments.
2. ELO-2:The student will be able to implement the basic concepts of Axiomatic Design and Complexity Engineering Management and analyze the importance of application of advance technologies for designing engineering systems, considering technical, environmental, economic, social, cultural and aesthetic aspects.
2. ELO-2:The student will be able to implement the basic concepts of Axiomatic Design and Complexity Engineering Management and analyze the importance of application of advance technologies for designing engineering systems, considering technical, environmental, economic, social, cultural and aesthetic aspects.