The general competencies acquired in this degree are those established by Order CIN/311/2009:
To have adequate knowledge of scientific and technological aspects across all areas of Industrial Engineering, including: mathematical, analytical, and numerical methods in engineering; electrical, energy, chemical, and mechanical engineering; continuum mechanics; industrial electronics; automation; manufacturing; materials; quantitative management methods; industrial computing; urban planning; infrastructure, etc.
To plan, calculate, and design products, processes, installations, and plants.
To lead, plan, and supervise multidisciplinary teams.
To carry out research, development, and innovation in products, processes, and methods.
To undertake strategic planning and apply it to construction systems, production, quality, and environmental management.
To manage projects, installations, plants, companies, and technology centers from both a technical and economic perspective.
To be able to perform roles in general management, technical management, and R&D&I project management in plants, companies, and technology centers.
To apply acquired knowledge and solve problems in new or unfamiliar environments within broader and multidisciplinary contexts.
To be capable of integrating knowledge and dealing with the complexity of making judgments based on incomplete or limited information, including consideration of the social and ethical responsibilities associated with the application of their knowledge and judgments.
To communicate conclusions clearly and unambiguously to both specialized and non-specialized audiences.
To possess the learning skills necessary to continue studying in a self-directed or autonomous manner.
To have the knowledge, understanding, and ability to apply the legislation required for the professional practice of Industrial Engineering.
The specific competencies acquired in this degree are those established in the Orden CIN/311/2009.
The general competencies acquired in this degree are those established by Order CIN/311/2009:
To have adequate knowledge of scientific and technological aspects across all areas of Industrial Engineering, including: mathematical, analytical, and numerical methods in engineering; electrical, energy, chemical, and mechanical engineering; continuum mechanics; industrial electronics; automation; manufacturing; materials; quantitative management methods; industrial computing; urban planning; infrastructure, etc.
To plan, calculate, and design products, processes, installations, and plants.
To lead, plan, and supervise multidisciplinary teams.
To carry out research, development, and innovation in products, processes, and methods.
To undertake strategic planning and apply it to construction systems, production, quality, and environmental management.
To manage projects, installations, plants, companies, and technology centers from both a technical and economic perspective.
To be able to perform roles in general management, technical management, and R&D&I project management in plants, companies, and technology centers.
To apply acquired knowledge and solve problems in new or unfamiliar environments within broader and multidisciplinary contexts.
To be capable of integrating knowledge and dealing with the complexity of making judgments based on incomplete or limited information, including consideration of the social and ethical responsibilities associated with the application of their knowledge and judgments.
To communicate conclusions clearly and unambiguously to both specialized and non-specialized audiences.
To possess the learning skills necessary to continue studying in a self-directed or autonomous manner.
To have the knowledge, understanding, and ability to apply the legislation required for the professional practice of Industrial Engineering.
This master’s program has a duration of 120 ECTS credits, distributed over two academic years. The curriculum offers different study pathways depending on the students’ previous degree, with the aim of leveling their knowledge in industrial technologies.
The summarized curriculum provides an overview of the different pathways and specializations.
The credits are distributed as follows:
Module (ECTS)
In the second year, five specializations of 15 ECTS each are offered, from which students must choose two:
In order to ensure the ability to work in a multilingual environment, students must demonstrate a B2 level of English proficiency, which must be accredited before the master’s degree is awarded.
The masters are organized by modules. Click on a module for more information.
| Guide | Type | QTR. | credits | |
|---|---|---|---|---|
| Manufacturing Process Engineering | Compulsory | First Quadmester | 4.500000000 ECTS | |
| Control Systems Technology | Compulsory | Second Quadmester | 3.0 ECTS | |
| Production Management | Compulsory | First Quadmester | 4.500000000 ECTS | |
| Business Management | Compulsory | First Quadmester | 4.500000000 ECTS | |
| Industrial Innovation | Compulsory | Second Quadmester | 3.0 ECTS | |
| Verification and Validation | Compulsory | Second Quadmester | 4.500000000 ECTS | |
| Design and Construction of Industrial Plants and Entrepreneurial Complexes | Compulsory | Second Quadmester | 4.500000000 ECTS | |
| Installations | Compulsory | Second Quadmester | 4.500000000 ECTS |
| Guide | Type | QTR. | credits | |
|---|---|---|---|---|
| Integrated Project Management | Compulsory | First Quadmester | 3.0 ECTS | |
| Electrical Facilities | Elective | First Quadmester | 3.0 ECTS | |
| Master's Dissertation | Master's Dissertation | Second Quadmester | 15.0 ECTS | |
| Work Placement | Work Placement | First Quadmester | 4.500000000 ECTS | |
| Computational Methods for Continuous Media | Elective | First Quadmester | 3.0 ECTS | |
| Finite Volume Method in CFD | Elective | First Quadmester | 4.500000000 ECTS | |
| Simulation Process in CFD | Elective | Second Quadmester | 3.0 ECTS | |
| Simulation of Mechanic and Structural Systems | Elective | Second Quadmester | 4.500000000 ECTS | |
| Simulation of Machines and Vehicles | Elective | First Quadmester | 4.500000000 ECTS | |
| Machine Design and Construction | Elective | Second Quadmester | 4.500000000 ECTS | |
| Biomechanics | Elective | First Quadmester | 3.0 ECTS | |
| Kinematics and Dynamics of Industrial Robots | Elective | Second Quadmester | 3.0 ECTS | |
| Degradation of Metals | Elective | First Quadmester | 4.500000000 ECTS | |
| Polymer Processing | Elective | Second Quadmester | 4.500000000 ECTS | |
| Surface Treatments | Elective | First Quadmester | 3.0 ECTS | |
| Material Analysis and Characterization Lab | Elective | Second Quadmester | 3.0 ECTS | |
| Logistic Systems Simulation | Elective | First Quadmester | 4.500000000 ECTS | |
| Industrial Logistics | Elective | Second Quadmester | 4.500000000 ECTS | |
| Advanced Production Systems | Elective | First Quadmester | 3.0 ECTS | |
| Industrial Process Design and Optimization Project | Elective | Second Quadmester | 3.0 ECTS | |
| Industrial System Integration | Elective | First Quadmester | 3.0 ECTS | |
| Monitoring and Control Systems | Elective | First Quadmester | 4.500000000 ECTS | |
| Machine Vision for Industrial Applications | Elective | Second Quadmester | 3.0 ECTS | |
| Introduction to Machine Learning | Elective | Second Quadmester | 4.500000000 ECTS | |
| Work Placement | Elective | First Quadmester | 4.500000000 ECTS | |
| Research Lab Internship | Elective | First Quadmester | 4.500000000 ECTS |
| Guide | Type | QTR. | credits | |
|---|---|---|---|---|
| Electrical Technology | Elective | First Quadmester | 4.500000000 ECTS | |
| Machine Design and Testing | Elective | First Quadmester | 4.500000000 ECTS | |
| Chemical Process Engineering | Elective | Second Quadmester | 4.500000000 ECTS | |
| Thermal Engineering | Elective | First Quadmester | 4.500000000 ECTS | |
| Energy Technology | Elective | Second Quadmester | 4.500000000 ECTS | |
| Electronics and Instrumentation | Elective | First Quadmester | 4.500000000 ECTS | |
| Industrial Automation | Elective | First Quadmester | 4.500000000 ECTS | |
| Structural Engineering | Elective | Second Quadmester | 4.500000000 ECTS |
The study is taught by the following teachers:
The masters are organized by modules. Click on a module for more information.
UDC holds student mobility agreements with universities and other third-level institutions across four continents. Students are offered several opportunities each year to apply to study abroad in one of these centres (for a single term or for a whole year), with the guarantee that all credits obtained will be duly recognised in their academic record upon their return.
For each round of applications, the University publishes the list of exchange options available to students and, where relevant, the specific conditions associated with each. Students may also apply to the University for funding for international work experience placements and internships.
Work experience placements are accredited in the student's academic record and the European diploma supplement. Students are free to decide in which host company or academic institution within the EHEA they wish to carry out their placement. To assist them in their search, the University has created an online noticeboard with jobs postings and other news.
Work-study placements in A Coruña are arranged by the International Relations Office (ORI) of the UDC in collaboration with the international relations coordinators in the student’s home university. The general entry criteria, rights and obligations of students, and admission and acceptance procedures for the programme, are regulated by the UDC Mobility Policy.