Master's Degree in Biomedical Engineering

  • Act with ethical and professional responsibility in the face of social, environmental and economic challenges, taking democratic principles and values and the Sustainable Development Goals as references.
  • Propose creative and innovative solutions to complex situations or problems, specific to the field of knowledge, to response to different professional and social needs.
  • Collaborate effectively in work teams, assuming responsibilities and leadership roles and contributing to collective improvement and development.
  • Communicate effectively, both orally and in writing, adapting to the characteristics of the situation and the audience.
  • Learn autonomously, making informed decisions in different contexts, making judgements based on experimentation and analysis and transferring knowledge to new situations.
  • Design, implement and manage appropriate experiments, analyse their results and draw conclusions in the field of biomedical engineering.
  • Effectively use biomedical instrumentation and observation methods for the study and analysis of complex biomedical systems.
  • Mathematically model and simulate complex processes in the field of biomedical engineering.
  • Formulate and solve problems using innovative technologies in the field of biomedical engineering.
  • Apply innovative processes to problem-solving that lead to better results.
  • Manage and audit the development, production and quality of healthcare products.
  • Develop new and original ideas and methods in the biomedical area and apply them to monitoring, diagnosis, treatment or therapy systems.
  • Manage complex systems and processes in the field of biomedical engineering.
  • Design and plan biomedical equipment, instruments or systems related to technology and engineering for prevention, diagnosis, treatment or rehabilitation in the health area.
  • Take initiatives and communicate them with conviction, conveying confidence and stimulating other team members.
  • Show an ethical, environmental, professional and social commitment to the development of engineering solutions that are compatible, sustainable and in continuous harmony with the reality of the human and natural environment.
  • Compare criteria for decision-making and formulate judgments based on information that may be incomplete or limited in the field of biomedical engineering.
  • Plan the activities to be carried out in a complex project, defining the objectives and priorities to be achieved by the different team members.
  • Understand and integrate the latest scientific and technological advances in the field and related fields, critically assessing their impact in a broad global, economic, cultural, environmental and social context.
  • Analyse, propose and build solutions to complex problems in emerging and multidisciplinary environments associated with biomedical engineering, from a global view.
  • Design and conduct research based on analysis, modelling and experimentation.
  • Investigate the application of new technologies in the field of biomedical engineering.
  • Provide ideas and solutions that are highly original, practical and applicable, flexible and complex, affecting both people and processes.
  • Develop, lead and implement projects in unstructured contexts that meet technical, safety and environmental requirements, exercising leadership over the project.
  • Lead, coordinate and participate in multidisciplinary teams in the field of biomedical engineering, particularly with health science professionals.