Competencies and objectives

 

Course context for academic year 2017-18

La asignatura Electromecánica pretende dar al alumno una visión global y unificadora de los sistemas electromecánicos, haciendo hincapié en el planteamiento, análisis y solución de problemas orientados hacia las aplicaciones. No se trata de que el alumno resuelva problemas de tipo más o menos académico, sino más bien en plantear y resolver problemas de forma unificada. Por consiguiente, la asignatura busca que el alumno integre los conocimientos del curso en un marco metodológico-conceptual que le permita abordar la problemática del modelado, diseño y funcionamiento de sistemas electromecánicos, así como la interpretación de los resultados obtenidos.

 

 

Course content (verified by ANECA in official undergraduate and Master’s degrees)

General Competences:>>Instrumental

  • CG2 : Make decisions in the design and planning of a robotics and/or automation project, taking into account quality and environmental criteria.
  • CG5 : Understand current scientific articles on robotics and automation.
  • CG6 : Analyse, synthesise problems and make decisions.

 

General Competences:>>Interpersonal

  • CG10 : Critical reasoning.
  • CG11 : Apply ethical requirements and responsibilities and the deontological code at all times.
  • CG7 : Work, plan, organise and supervise work in multidisciplinary teams.
  • CG9 : Interpersonal relationship skills.

 

General Competences:>>Systematic

  • CG12 : Capacity to apply the knowledge acquired to real situations.
  • CG13 : Capacity to work and learn autonomously.

 

Specific Competences:>>Robotics

  • CERO3 : Capacity to deal with direct and reverse kinematics problems, using transformation matrices to model articulated systems.
  • CERO4 : Capacity to analyse the restrictions on the dynamics of articulated systems.
  • CERO5 : Understand the working of electric machines and understand their use as actuators in robotics.
  • CERO6 : Understand the working of transmissions and gears and their application to articulated systems.

 

 

 

Learning outcomes (Training objectives)

No data

 

 

Specific objectives stated by the academic staff for academic year 2017-18

No data

 

 

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General

Code: 37804
Lecturer responsible:
CAMPO BAGATIN, ADRIANO
Credits ECTS: 6,00
Theoretical credits: 1,50
Practical credits: 0,90
Distance-base hours: 3,60

Departments involved

  • Dept: PHYSICS, ENGINEERING SYSTEMS AND SIGNAL THEORY
    Area: APPLIED PHYSICS
    Theoretical credits: 1,5
    Practical credits: 0,9
    This Dept. is responsible for the course.
    This Dept. is responsible for the final mark record.

Study programmes where this course is taught