Matter: Systems engineering and automatics
Subject:Systems engineering and automatics
:GEI01
ECTS:42
Evaluation's systems:
Observations:
Activities
| activitat | ECTS | metodologia | competencia |
|---|---|---|---|
| Master lectures | 9,45 | Participatory lectures where students are frequently asked to submit questions. | E27, E28, E29, E31, E42 |
| Personal study | 10,50 | Review and study of the material covered in lectures and research for supplementary information. | E27, E28, E29, E31, E42 |
| Exam | 2,10 | Individual exams and assessment tests. | E27, E28, E29, E31, E42, T07 |
| Individual exercices | 10,50 | Personal assimilation work while solving problems autonomously. | E27, E28, E29, E31, E42 |
| Lab practices | 9,45 | Laboratory practices carried out in teams of 2-3 students with the preparation of technical documentation. | E27, E28, E29, E31, E42, T02, T03, T06, T07 |
Competences
| codi | nom |
|---|---|
| T02: | Learn autonomously new knowledge, techniques, methods and theories throughout professional life. |
| T03: | Search bibliographic information, on the Internet or other means, for the development of new ideas and for the professional practice. |
| T06: | Work in multidisciplinary teams, while assuming different roles, with absolute respect for fundamental rights and equality between men and women. |
| T07: | Ability to solve problems using critical thinking. |
| E42: | Expand applied knowledge about specific technologies in the area of automation and industrial electronic engineering. |
| E42.01: Design applications of advanced systems for monitoring, acquisition and Data Control (SCADA). | |
| E42.02: Design Advanced control systems evaluating the advantages and disadvantages of the different solutions by choosing the most appropriate. | |
| E42.03: Apply artificial vision systems for industrial process control. | |
| E42.04: Designing applications of data monitoring, acquisition and control systems, including communications between field devices and systems. | |
| E42.05: Industrial process monitoring, including the interconnections between equipment or systems and their communications. | |
| E42.06: Apply industrial safety criteria in the design and implementation of industrial automation systems. | |
| E42.07: Design and implementation of advanced robotic systems . | |
| E27: | Knowledge and ability for modeling and simulation. |
| E27.01: Know the classical and modern systems analysis techniques. | |
| E27.02: Model and analyze dynamic systems manually and using simulation tools. | |
| E28: | Knowledge of automatic control and control technology and their application to the industrial automation. |
| E28.01: | |
| E28.02: Apply the concepts of automatic control for the regulation of dynamic systems. | |
| E28.03: Control the operation of continuous and discrete systems. | |
| E29: | Knowledge of the principles and applications of robotic systems. |
| E29.01: Select the ideal type of robot for a given application . | |
| E29.02: Programming manipulators robots for use in industrial environments . | |
| E31: | Ability to design control systems and industrial automation systems. |
| E31.01: Use CAD tools to elaborate the documentation of systems engineering projects and automatics. | |
| E31.02: Apply the technique of programmable logic control for the automation of industrial processes. | |
| E31.03: Design and develop automation systems that satisfy the specification. | |
| E31.04: |
Subjects
| codi | nom | ECTS | caracter |
|---|---|---|---|
| 200210 | 6 | Optional | |
| 200202 | 6 | Compulsory | |
| 200211 | 6 | Optional | |
| 200199 | 6 | Compulsory | |
| 200214 | 6 | Optional | |
| 200215 | 6 | Optional | |
| 200216 | 6 | Optional |