- Doctoral Programme in Technology
- Polytechnic School
- Indicative number of places
- Number of registered students
- Official enrolment data
- Other information
- AQU Indicators
Why do a doctoral degree in Technology at the UdG?
The Doctoral Programme in Technology incorporates all the lines of technological research undertaken at the UdG. It is therefore the benchmark programme for all graduates, engineers or holders of technological degrees who, having completed a master's course, are interested in conducting research in some of the areas covered by the programme: computer vision and robotics, networked information systems, control engineering and smart systems, computing, technology of natural fibres and polymer materials, food technology, biotechnology of reproduction, plant pathology, mechanics of materials and structures, statistical and logical methods, technological innovation in productive systems or power and fluid engineering.
The technological research always includes an element of application and the aim is to try to ensure that the contributions made in the thesis are geared towards resolving problems that help to advance technological development. So, at present theses are being prepared that cover a diverse range of fields, such as: medical diagnostics, underwater robotics, video games, electrical networks, smart cities, e-learning, new composite materials for the aeronautical sector, structure analysis methods, developing elements to control plagues and diseases in plants, technologies for animal selection and reproduction, development of functional foods from pig's blood, genetically modified plants, paper recycling, production and quality management, process planning and supply chains, transport phenomena in fluids and irrigation engineering, among others.
A technological doctoral degree requires perseverance, interest and a curiosity to learn and contribute new knowledge to current technologies, the ability to formulate problems and propose new solutions and approaches to existing problems, and to evaluate the results with a critical spirit, while following a scientific methodology.
The professional career options for students that undertake this programme vary depending on the line of research followed, but generally speaking, they include continuing a career in research (post-doc), working in technological centres, research in the R+D departments of industries or public or private institutions, or coordination and participation in research projects in companies (both SMEs and big businesses)
The general objective of the Doctoral Programme in Technology at the University of Girona is to train highly qualified researchers in this field who will be equipped with the professional and personal skills and abilities to successfully join national and international R&D&i systems./ The Doctoral Programme in Technology brings together the lines of research undertaken at the University of Girona in the fields of engineering and architecture in which researchers are trained. Students who complete this doctoral programme will have the ability to create their own knowledge in order to solve real technological problems, put together a sound defence of their personal points of view, produce complex scientific reports and defend them before a qualified audience. The attainment of all these objectives will be achieved through the realisation of the doctoral thesis, which will prepare the researchers for their future professional career.
Programme with the mention of excellence.
Lines of research
1. Computer vision and robotics
UdG research group: Computer vision and robotics (VICOROB, GRCT0075)
- Mobile robotics
- Robotics and underwater vision
- Image analysis. Segmentation, detection and recognition of objects.
- 3D Perception
- Processing medical images
2. Networked and agent-based information systems
UdG research groups: Communications and Distributed Systems (BCDS, GRCT0040), Agents Research Lab (ARLAB, GRCT0069)
- Managing and Controlling Service Quality in communication networks
- Distributed systems
- Adaptive Hypermedia Systems
- Development and analysis of Artificial Intelligence (AI) techniques with multi-agent systems
- Research on physical agents
3. Control engineering and intelligent systems
UdG research groups: Modal Intervals and Control Engineering (MICE, GRCT0066), Control Engineering and intelligent Systems (EXIT, GRCT0041), Agents Research Lab (ARLAB, GRCT0069), Differential equations, modelling and applications (EDMA, GRCT0068)
- Methods for monitoring and supporting data-based decision making
- Distributed systems, scheduling and optimisation of resources
- Modelling, identification and control of complex systems
- Detection and diagnosis of faults in dynamic model-based systems.
- Interval analysis based methods and tools
- Artificial pancreas: Modelling and control of glucose metabolism
- Smartcities and Smart grids
UdG research groups: Graphics and Image Laboratory (GILAB, GRCT0081), Geometry and Graphs Group (GGG, GRCT0082)
- Serious games
- Scientific visualisation and visualisation of Information
- Image processing
- Augmented Reality
- Virtual learning environments
5. Technology of natural fibres and polymer materials
UdG research groups: Laboratory of Paper and Polymer Material Engineering (LEPAMAP, GRCT76), Industrial Design and Product Development (PRODIS, GRCT0033), Materials and Thermodynamics (GRMT, GRCT0029 - Materials and Thermodynamics Research Group. GRMT
- Paper Technology
- Paper recycling
- Cellulose pastes
- Natural fibres as a reinforcement of compound materials
- Cellulose nanomaterials
- Preparing polymer biomaterials for use in textile engineering
6. Food Technology
UdG research group: Food Technology (TA, GRCT49)
- Development of functional and/or nutritional food ingredients from pigs’ blood
- Plant biotechnology for the development of phytosanitary tools and genetically modified plant security
- IRTA (Institute of Research in Agricultural Technology). Technology and food security
7. Biotechnology of reproduction
UdG research group: Biotechnology of Animal and Human Reproduction (Biotechnology of Reproduction, GRCT006)
- Sperm cryopreservation
- Analysis of sperm quality
- Determining pathogenesis in semen samples
- Reproductive and alimentary traceability
- Assisted reproduction techniques
8. Plant Pathology
UdG research group: Plant Pathology (PV, GRCT46)
- Epidemiology and disease control in plants
- Microbial pesticides for disease control and biofertilisers of plants
- Development of new active ingredients for controlling plant diseases
9. Mechanics of materials and structures
UdG research groups: Analysis and Advanced Materials for Structural Design (AMADE, GRCT64), Construction: advanced technologies and sustainability (CATS, GRCT0088), Modal Intervals and control engineering (MICE, GRCT0066)
- Construction and sustainability technologies
- Numerical and experimental analysis of materials and structures
- Compound materials for aeronautical structures: advanced simulation and experimental characterisation
10. Statistical and logical methods in technological applications
UdG research groups: Statistics and Analysis of Compositional Data (GR-EADC, GRCT35), Logic and Programming (LAP, GRCT38)
- Statistical analysis of compositional data
- Factorial analysis of data
- Design and processing of surveys
- Applications of logic to computer science
- Automatic deduction
- Constraint Programming
11. Technological innovation in productive systems
UdG research group: Process, Product and Production Engineering (GREP, GRCT0062)
- Manufacturing-process characterisation
- Design methodologies
- Additive manufacture
- Quality management
- Management of production and the supply chain
- Process planning and integration with production planning
12. Power and fluid engineering
UdG research groups: Agricultural Engineering (EA, GRCT0056), Complex Systems Group (GSC, GRCT0079)
- Engineering and Management of Irrigation
- Transport phenomena in fluid engineering
- Complex and biophysical systems
- Flame propagation in solid fuels and gases.
UdG research groups: Architecture and territory (AiT, GRCT0080), Construction: advanced technologies and sustainability (CATS, GRCT0088)
- Project theory. Architectural renovation. Architecture, city and visual culture
- Theory and history of architecture.
- Theory and history of urban planning. Urban, territorial and landscape analysis and planning
The regulations governing the teaching programmes of doctoral degrees at the University of Girona establish that the Academic Committees of each doctoral programme may establish requirements additional to those set out by the School of Doctoral Studies in the following cases:
- The Academic Committees will be able to establish requirements and criteria in addition to those provided for in article 3 for the selection and admission of students to the corresponding doctoral programme.
- The Academic Committee of the doctoral programme may establish additional requirements for becoming a thesis tutor.
- The Academic Committee of the doctoral programme may establish additional requirements for becoming a thesis director.
- The Academic Committee of the doctoral programme will be able to establish additional requirements for the authorisation to present a thesis in the form of compendium of publications.
- The Academic Committee of the doctoral programme may establish additional requirements for becoming a member of the thesis tribunal.
- The Academic Committee of the doctoral programme may establish additional requirements to award the mention "cum laude".
The Doctoral Programme in Technology is governed by Royal Decree 99/2011, of 28 January, which establishes the organisation of official doctoral studies programmes. The access requirements are those set out in this Royal Decree and which can be consulted at the following web address www.udg.edu/doctorat/acces.
The Doctoral Programme in Technology is governed by Royal Decree 99/2011, of 28 January, which establishes the organisation of official doctoral studies programmes. The access requirements are those set out in this Royal Decree and which can be consulted at www.udg.edu/doctorat/acces.
The Academic Committee will follow the following criteria of prioritisation:
. Extent to which the candidate's predoctoral education is aligned with the line of research, with a particular focus on the master's degree or qualification that gives the candidate access to the doctoral degree.
Appraisal of the academic record.
. Existence and quality of publications in the area of the line of applied research and / or similar.
. Availability of thesis director in the selected line.
Regarding educational activities, the School of Doctoral Studies organises courses, seminars and other cross-disciplinary educational activities (soft skills) directed at research training and assisting with the writing and presentation of the doctoral thesis. We ask that the courses be given in English as our language of choice, although Catalan is the language most frequently used. They are generally 10-hour courses or seminars. There are a series of activities that are transferable and are of interest to all doctoral programmes, and others that are specific to a particular doctoral programme
Doctoral theses read in the programme
Doctoral theses read in the area
You must know
Compulsory training for doctoral students
Doctoral Programme in Technology
Compulsory education: 20 h. of cross-disciplinary education to be chosen from the courses offered by the School of Doctoral Studies.
The Academic Committee considers it highly advisable to attend:
- Lecture: Criteria used to evaluate research in the technological area of Engineering Studies (within the framework of the Programme of Lectures on Publication Policy and Practice).
- Workshop: How to write a paper in Technology.
All the courses offered on the doctoral programme in this link