Checking date: 09/07/2020


Course: 2020/2021

Technical Office
(14762)
Study: Bachelor in Industrial Electronics and Automation Engineering (223)


Coordinating teacher: PLEITE GUERRA, JORGE

Department assigned to the subject: Department of Electronic Technology

Type: Compulsory
ECTS Credits: 3.0 ECTS

Course:
Semester:




Students are expected to have completed
Since students must face the preparation of a project document for industrial engineering in electronics, the student will have an easier time developing this course and get better use of it if you have passed all the subjects of the specialty of 1 , 2 and 3 of the degree.
Competences and skills that will be acquired and learning results. Further information on this link
By the end of this subject, students will be able to have: 1. knowledge and understanding to develope, execute and manage industrial engineering projects, according to good practises, standards and regulations 2. awareness of the wider multidisciplinary context of engineering. 3. the ability to apply their knowledge and understanding to analyse engineering products, processes and methods; 4. the ability to apply their knowledge and understanding to develop and realise designs to meet defined and specified requirements; 5. the ability to conduct searches of literature, and to use data bases and other sources of information; 6. an awareness of the non-technical implications of engineering practice. 7. function effectively as an individual and as a member of a team; 8. demonstrate awareness of the health, safety and legal issues and responsibilities of engineering practice, the impact of engineering solutions in a societal and environmental context, and commit to professional ethics, responsibilities and norms of engineering practice; 9. demonstrate an awareness of project management and business practices, such as risk and change management, and understand their limitations
Description of contents: programme
1. INDUSTRIAL PROJECT. ¿ DEFINITION. ¿ PHASES. ¿ LIFE CYCLE OF A PROJECT. 2. PROJECT FLOWCHARTS. ¿ ORGANIZATION TECHNICAL OFFICE. ¿ RESPONSIBILITIES. 3. DESIGN PHASE PREVIOUS STUDIES. PROJECT FEASIBILITY. ¿ TECHNICAL FEASIBILITY ¿ ECONOMIC FEASIBILITY 4. DEFINITION PHASE. PROJECT DOCUMENTS. ¿ MEMORY. ¿ FLAT. ¿ SPECIFICATION. ¿ BUDGET. 5. IMPLEMENTATION PHASE I. ¿ PROJECT LEGALIZATION AND TRAMITACIONES. ¿ NORMATIVE. ¿ VISAS ¿ PERMITS 6. THE DIRECTOR OF THE PROJECT. ¿ CONTROL OF DEADLINES. TOOLS ¿ COST CONTROL. TOOLS. ¿ QA. TOOLS 7. IMPLEMENTATION PHASE II. ACTUAL IMPLEMENTATION ¿ RECRUITMENT AND SHOPPING ¿ TECNICAL MANAGEMENT ¿ THE MAIN CONTRACTOR ¿ OVERRIDE PROJECT 8. HEALTH AND SAFETY. ¿ STUDY HEALTH AND SAFETY ¿ COORDINATOR OF SAFETY AND HEALTH ¿ LEGALIZATION 9. DISABLING THE PROJECT ¿ SUPPLIES ¿ LEGALIZATIONS ¿ TESTS
Learning activities and methodology
Master-classes, classes resolve doubts in small groups, student presentations, individual tutorials and personal work; aimed at the acquisition of theoretical knowledge (1.5 ECTS credits). Practices, small group classes, individual tutorials and personal work; towards the development of a project document in Electronics Engineering (1.5 ECTS credits).
Assessment System
  • % end-of-term-examination 25
  • % of continuous assessment (assigments, laboratory, practicals...) 75

The course syllabus and the academic weekly planning may change due academic events or other reasons.