Licence en ingénierie robotique (anglais)
Leganés, Espagne
DURÉE
4 Years
LANGUES
Anglais
RYTHME
À plein temps
DATE LIMITE D'INSCRIPTION
Date limite de dépôt des demandes
DATE DE DÉBUT AU PLUS TÔT
Sep 2024
FRAIS DE SCOLARITÉ
EUR 7 000 / per year *
FORMAT D'ÉTUDE
Sur le campus
* pour les étudiants non européens | pour les étudiants de l'UE : 1 500 €/an
Introduction
La nouvelle licence en ingénierie robotique vise à former des professionnels capables d'aborder et de résoudre des problèmes technologiques très complexes, allant de la conception de robots à leur mise en œuvre dans le monde réel.
La robotique influence tous les aspects de la vie quotidienne. C'est une discipline transversale qui englobe un large éventail de technologies et, selon une étude récente du MIT, c'est l'une des dix technologies du futur.
Ce programme offre une solide formation interdisciplinaire axée sur la robotique. Les étudiants acquerront des connaissances et des compétences dans les matières fondamentales de l'ingénierie telles que les mathématiques, la physique, la programmation, l'expression graphique, l'organisation industrielle, etc. En même temps, les étudiants recevront une formation solide en robotique dans un sens large et transversal, en acquérant des connaissances sur la conception, le design et le contrôle des robots, la vision par ordinateur, l'interaction homme-robot, les robots sociaux, la robotique douce, les robots collaboratifs, l'industrie 4.0 et l'éthique de la robotique, entre autres.
La licence en ingénierie robotique est enseignée en anglais, avec des laboratoires spéciaux pour les séances de travail en petits groupes. Les étudiants du programme ont la possibilité d'effectuer des stages professionnels dans les principales entreprises du secteur.
Études en anglais uniquement
Ce diplôme est entièrement dispensé en anglais. Aucun groupe n'est disponible en espagnol, quelle que soit la matière. Vous devez tenir compte du fait que :
- Dans les groupes d'anglais, tous les travaux (cours, exercices, tests, etc.) se déroulent en anglais.
- Au cours de la première année, il doit établir un niveau d'anglais B2, passer un test et fournir l'un des certificats officiels soutenus ou tout autre moyen déterminé par l'université
- Après avoir terminé les études, la mention DS d'avoir effectué les études en anglais apparaîtra
Employabilité et stages professionnels
L'UC3M a conclu des accords avec plus de 3 000 entreprises et institutions dans lesquelles les étudiants peuvent effectuer des stages et accéder à des offres d'emploi.
Au total, 93,4 % des diplômés de cette université entrent sur le marché du travail dès la première année suivant la fin de leurs études, selon la XXIVe étude d'insertion professionnelle de 2019.
Galerie
Admissions
Curriculum
Year 1 - Semester 1
- Linear algebra (6 ECTS)
- Calculus (6 ECTS)
- Digital skills for information use (1.5 ECTS)
- Physics I (6 ECTS)
- Advanced knowledge of spreadsheets (1.5 ECTS)
- Introduction to robotics (3 ECTS)
- Programming (6 ECTS)
Year 1 - Semester 2
- Mathematics extension (6 ECTS)
- Algorithms and data structures (6 ECTS)
- Physics II (6 ECTS)
- Fundamentals of Electrical Engineering (6 ECTS)
- Skills: Humanities I (3 ECTS)
- Writing and communication skills (3 ECTS)
Year 2 - Semester 1
- Design of telematic systems (6 ECTS)
- Graphical expression (6 ECTS)
- Fundamentals of electronics engineering (6 ECTS)
- Control Engineering I (6 ECTS)
- Signals and systems (6 ECTS)
Year 2 - Semester 2
- Statistics (6 ECTS)
- Introduction to Engineering Management (6 ECTS)
- Fundamentals of mechanical engineering (6 ECTS)
- Electronic instrumentation (3 ECTS)
- Industrial robotics (6 ECTS)
- Real-time systems (3 ECTS)
Year 3 - Semester 1
- Sensors and actuators for robotics (3 ECTS)
- Automatic machine learning (3 ECTS)
- Fundamentals of digital communications (3 ECTS)
- Skills: Humanities II (3 ECTS)
- Electrical machines (3 ECTS)
- Microprocessors and microcontrollers (6 ECTS)
- Robot programming (6 ECTS)
- Intelligent decision-making in robotics (3 ECTS)
Year 3 - Semester 2
- Industrial automation (6 ECTS)
- Control Engineering II (6 ECTS)
- Materials for robots (3 ECTS)
- Networks and communications protocols (6 ECTS)
- Strength of materials (3 ECTS)
- Computer vision (6 ECTS)
Year 4 - Semester 1
- Robot's control architectures (3 ECTS)
- Cybersecurity in robotics (3 ECTS)
- Soft Skills (3 ECTS)
- Human-robot interaction (3 ECTS)
- Collaborative robots (3 ECTS)
- Flexible production systems (3 ECTS)
- Soft robotics (3 ECTS)
- Project in robotics engineering (3 ECTS)
Electives: 6 Credits
Electives to choose in 4th year - First Semester
Choose 6 credits
- Biomedical applications of robotics (3 ECTS)
- Wireless sensor networks (3 ECTS)
- Data analytics (3 ECTS)
- Mini-robots laboratory (3 ECTS)
- Professional internship (6 ECTS)
Year 4 - Semester 2
- Ethics and social implications of robotics (3 ECTS)
- Mobile manipulators (3 ECTS)
- Social robotics (3 ECTS)
- Bachelor thesis (12 ECTS)
Electives: 9 Credits
Electives to choose in 4th year - Second Semester
Choose 9 credits
- Aerospace applications of robotics (3 ECTS)
- Industrial internet of things (3 ECTS)
- Brain-machine interfaces (3 ECTS)
- Battery storage for robots (3 ECTS)
- Labor legal framework of robotics (3 ECTS)
Mobility
Exchange programs
The Erasmus program permits uc3m first-degree and post-graduate students to spend one or several terms at one of the European universities with which uc3m has special agreements or take up an Erasmus Placement, a work placement or internship at an EU company. These exchanges are funded with Erasmus Grants which the EU and the Spanish Ministry of Education provide.
The non-European mobility program enables uc3m degree students to study one or several terms in one of the international universities with which the university has special agreements. It also has funding from Banco Santander and the uc3m.
These places are offered in a public competition and are awarded to students with the best academic record and who have passed the language threshold (English, French, German, etc..) requested by the university of destination.
Classements
- QS World University Rankings Top 50 Under 50
- 35th spot worldwide and ranked 10th in Europe, on QS Top 50 Under 50 Ranking
- QS World University Rankings
- 319th position on the QS World University Rankings 2024
- QS World University Rankings Subjects Rankings
- Among the world’s best universities in 13 academic fields, according to QS World University Rankings by Subject 2023
- QS Graduate Employability Rankings
- Among the 136 best universities in the world for employability, according to THE’s Global University Employability Ranking 2022.
Résultat du programme
Graduates of the Robotics Engineering Degree must be able to make use of engineering knowledge to solve problems and applications of robotics in industry, services, research, and, in general, in several social challenges. They must be able to design, build, program, integrate, and solve real problems that arise in this discipline.
To achieve this, graduates will have a strong master of basic engineering subjects by taking the corresponding subjects of mathematics, physics, programming, graphic expression, and industrial organization. They will also be trained in the classic engineering subjects adapted to this degree. In the Electrical Engineering (Anglo-Saxon) branch, students take Electronics (fundamentals, microprocessors, and instrumentation), Electricity (electrical machines), and Automation (control engineering, automation, sensors and actuators, and control architectures). In the branch of Mechanical Engineering, the students will take subjects corresponding to the fundamentals of the mechanics of machines and the resistance of materials. On the other hand, in the branch of Information and Communication Technologies (ICT), graduates will have a solid background in programming (basic and advanced), real-time systems, and machine learning, as well as in communications, networks and protocols, signals and systems, and telematic technology.
Graduates of this degree will have solid training in Robotics in the broad and transversal sense. They will know about robot conception, design, and control. They will start with industrial robotics to deepen their knowledge of actuators and sensors for robotics, kinematics and dynamics, trajectory generation, and its main applications. The graduate will be able to program robots in proprietary languages, as well as in free distribution languages (ROS, YARP). They will also know computer vision, decision-making systems, human-robot interaction, and flexible production systems. Finally, they will be trained in different modern robotics applications such as soft robotics, social robots, mobile manipulators, collaborative robots, industry 4.0, and robotics ethics.
The apprenticeship will also include a series of electives that will allow graduates to delve into robotic applications in different sectors such as biomedicine, aerospace, and related technologies (sensor networks, IIoT, brain-machine interfaces, cybersecurity, industrial networks, and data analytics) to end with the study of the implication of robotics in the labor market.
With all this, graduates of this degree will be able to develop their professional careers in all sectors of economic activity and research in which professionals with a robotics engineering profile are in demand.
Frais de scolarité du programme
Opportunités de carrière
- Entreprises du secteur industriel
- Entreprises d'automatisation
- Entreprises de fabrication de robots
- Entreprises du secteur aéronautique
- Entreprises du secteur des services
- Engineering companies
- Hôpitaux de la Communauté de Madrid et leurs instituts de recherche correspondants
- Consultants
- Entreprises de robotique éducative
- EBT dans la robotique et les secteurs connexes
- Organismes publics étatiques et régionaux