Resolution Of 1 Of July Of 2015, Of The University San Pablo-Ceu, By Which Is It Published The Plan Of Studies Of Graduate In Engineering Biomedical.

Original Language Title: Resolución de 1 de julio de 2015, de la Universidad San Pablo-CEU, por la que se la publica el plan de estudios de Graduado en Ingeniería Biomédica.

Read the untranslated law here: http://www.boe.es/buscar/doc.php?id=BOE-A-2015-7890

Obtained the verification of the curriculum by the universities Council, prior favourable report from the National Agency for quality assessment and accreditation, as well as the authorization of the community of Madrid and established the official nature of the title by agreement of the Council of Ministers of 8 March 2013, published in the official Gazette of 24 April , This Rector's Office of compliance with it willing in the article 35 of the law organic 6 / 2001, of universities, in the drafting given by the law organic 4 / 2007, has determined publish the plan of studies conducive to the obtaining of the title official related then: graduated or graduated in engineering biomedical this plan will be structured according to consists in the annex of this resolution.

Madrid, 1 July 2015.-El Rector, Juan Carlos Domínguez Nafría.

ANNEX curriculum of the title of graduate or graduate biomedical engineering by Universidad San Pablo-CEU planning teachings i. Overview of curriculum and its distribution in credits basic commodity credits training type 78 required 144 6 external practical work end of grade 12 Total 240 II. Plan of studies summarized by materials and activities training design curriculum of the program training of the qualification course matter ECTS module 1 mathematics.





18. basic training.






Computing.





12 training Basic.






English.





6. English.






Biochemistry.





12 training Basic.






Physical.





6 training Basic.






History and society.





6 training humanistic.






Total 60 computational mathematics 2nd.





6 mathematical computing and statistics.






Physical.





12 basic training.






Statistics.





6. computational mathematics and statistics.






Biology.





6 fundamentals of biomedicine.






Theory of the signal.





6. processing of the signal.






Physiology.





12 training Basic.






Digital systems.





6 technology and architecture of computers.






Computing.





6 training Basic.






Total





60





 






3.º





Estadística.





6. computational mathematics and statistics.






Digital systems.





6. technology and computer architecture.






Theory of the signal.





6. processing of the signal.






Digital signal treatment.





12. processing of the signal.






Projects in biomedical engineering.





9. biomedical engineering.






Computational mathematics.





5. computational mathematics and statistics.






Signals in bioengineering.





3. biomedical engineering.






Fundamentals of pathology.





7 basics of biomedicine.






Computer architecture.





6. technology and computer architecture.






Total





60





 






4.º





Biología.





6 basics of biomedicine.






Signals in bioengineering.





9 engineering biomedical.






Biology computational.





9 biology computational.






Projects in engineering biomedical.





3 engineering biomedical.






Training humanistic.





6 training humanistic.






Data analysis in biomedicine.





9. biomedical engineering.






Internship.





6 internship.






End of degree work.





12. end of degree work.






Total 60 Total 240 semi-annual distribution of subject ECTS course organization Temporal matter mathematics teaching load.





Fundamentals of biomedical engineering I.





6 1 S1 mathematical foundations of biomedical engineering II.





6 1 S1 mathematical foundations of the III biomedical engineering.





6





1





S2






Física.





Waves, electrostatics and electrodynamics.





6 1 S2 electromagnetism and optics.





6 2 S3 theory of circuits.





6





2





S3






Bioquímica.





Chemical.





6 1 S1 Biochemistry and biology Molecular.





6





1





S2






Informática.





Programming.





6 1 S1 algorithms and structures of data.





6 1 S2 databases.





6





2





S4






Fisiología.





Anatomy and physiology.





6 2 S4 Histophysiology.





6 2 S4 training humanistic.





History and society.





6 1 S2 Social doctrine of the Church.





6





4





S7






Inglés.





English.





6 1 S1 digital systems.





Digital electronic.





6 2 S4 digital systems.





6 3 S5 computer architecture.





Computer architecture and operating systems.





6 3 S6 mathematical computing.





Dynamical systems in biomedical engineering.





6 2 S3 numerical methods in biomedical engineering.





5





3





S6






Estadística.





Biostatistics I.





6 2 S3 Biostatistics II.





6 3 S5 theory of the signal.





Signals and systems.





6 2 S4 signals random.





6 3 S5 treatment Digital of signals.





Treatment Digital of the signal.





6 3 S5 treatment Digital of images.





6 3 S6 fundamentals of pathology.





Physiology and pathology General.





7





3





S6






Biología.





Fundamentals of biology.





6 2 S3 Geomica and proteomics.





6 4 S7 projects in biomedical engineering.





Projects in biomedical engineering I.





6 3 S5 projects in biomedical engineering II.





3 3 S6 III biomedical engineering projects.





3 4 S7 data analysis in biomedicine.






Data mining in biomedicine.





4.5 4 S8 systems of support to the Decision.





4.5 4 S8 signals in bioengineering.





Techniques of image in biomedicine.





3 3 S6 biomedical signals.





3 4 S8 instrumentation biomedical.





3 4 S7 telemedicine.





3 4 S7 computational biology.





Bioinformatics.





6 4 S8 biology of systems.





3 4 S7 Externships.





Practice outside.





6 4 S7 end of degree work.





Work end of grade.





12





4





S8