Key Benefits:
Obtained the verification of the curriculum by the Council of Universities, prior to the approval of the National Agency for the Evaluation of Quality and Accreditation, as well as the authorization of the Community of Madrid and established the official character of the Title by Agreement of the Council of Ministers of 8 March 2013, published in the BOE of 24 April,
This Rectorate in accordance with the provisions of Article 35 of the Organic Law 6/2001, of Universities, in the wording given by the Organic Law 4/2007, has resolved to publish the plan of studies leading to the obtaining of the Related official title below:
Graduate or Graduate in Biomedical Engineering
This plan will be structured as listed in the Annex to this Resolution.
Madrid, July 1, 2015.-El Rector, Juan Carlos Dominguez Nafria.
ANNEX
Graduate Degree Studies Plan or Graduate in Biomedical Engineering by St. Paul-CEU University
Planning the teachings
I. Summary of the curriculum and its distribution in credits
Credits | |
---|---|
training |
78 |
| 144 |
Practices | 6 |
End Grade | 12 |
Total | 240 |
II. Curriculum summary by materials and training activities
Curriculum design of the training program of the titration
Matter | ECTS | Module | ||
---|---|---|---|---|
1. º | Mathematics. | 18 | Training Basic. | |
Informatics. | 12 | Basic Training. | ||
English. | 6 |
English. | ||
Biochemistry. | 12 | Basic Training. | ||
Physics. | 6 |
History and Society. | ||
| Training Humanistic. | |||
| 60 |
| ||
Computational Mathematics. | 6 | Computational Mathematics and Statistics. | ||
. | 12 |
Basic Training. | ||
. | 6 | Mathematical Computational and Statistics. | ||
Biology. | 6 | Biomedicine Foundations. | ||
Theory. | 6 |
Senal | ||
Physiology. | 12 | Training Basic. | ||
Systems. | 6 | Technology and Computer Architecture. | ||
Informatics. | 6 | Basic Training. | ||
Total | 60 |
| ||
3. º |
6 | Computational Mathematics and | ||
6 | Technology and Computer Architecture. | |||
Theory. |
6 | Senal Processing | ||
Digital Signals Treatment. | 12 | Senal | ||
9 | Biomedical Engineering | |||
Computational Math. | 5 |
Signals in Bioingeneria. | ||
|
Pathology fundamentals. | |||
7 | Fundamentals of Pathology | 7 | Biomedicine. | |
Architecture. | 6 | Technology and Computer Architecture. | ||
Total | 60 |
| ||
. º | Biology. | 6 | Biomedicine Foundations. | |
9 | Biomedical Engineering. |
| ||
9 | Computational Biology. | |||
Projects in Biomedical Engineering. |
3 | Biomedical Engineering. | ||
Humanistic Training. | 6 | Humanistic Training. | ||
9 | Biomedical Engineering. |
|
in Enterprise. | 6 | Practices in Company. |
End Job. | 12 | Degree End Job. | ||
Total | 60 |
| ||
Total |
240 |
|
Half-yearly distribution of teaching load
Allocate | ECTS | Course | Organization Temporary | |||
---|---|---|---|---|---|---|
Mathematics. |
| 6 | 6 | |||
S1 |
S1 |
| S1 | |||
mathematical foundations of Biomedical Engineering III. | 6 | 1 | S2 | |||
. | Physics. | Ondas, Electrostatic, and Electrodynamic. |
| |||
Electromagnetism and Optical. |
6 | 2 | ||||
6 | 6 | 2 | ||||
Biochemistry. | Chemistry. | 6 |
1 | S1 | ||
|
1 | 6 | S2 | |||
Informatics. | Programming. | 6 | 1 |
S1 | ||
Algorithms and Data Structures. | 6 | 1 | S2 | |||
| 2 | S4 | ||||
Physiology. | Anatomy and Physiology. |
2 | S4 | |||
Histophysiology. |
| 2 | S4 | |||
History and Society. | 6 |
1 | S2 | |||
Social Doctrine. | 6 |
4 | S7 | |||
English. | English. | 6 | 1 | |||
Digital Systems. | Digital Electronics. |
2 | S4 | |||
Systems. | 6 | 3 | S5 |
|||
Architecture. | Computer and Operating Systems Architecture. | 6 |
3 | S6 | ||
computational mathematics. | Systems Dynamic in biomedical engineering. | 6 |
| S3 | ||
Numeric Methods in Biomedical Engineering. | 5 | 3 | S6 | |||
. |
| 6 | 6 | S3 | ||
Biostatistics II. | 6 | 3 | S5 | |||
S5 Theory | Signs and Systems. | 6 | 2 | S4 | ||
6 | 6 | 3 | S5 | |||
Digital Signals Treatment. | Signal Digital Treatment. | 6 | 3 |
| ||
|
6 | 3 |
S6 | |||
Pathology Foundations. | Physiology and General Pathology. | 7 | 3 | S6 | ||
Biology. | Biology Foundations. | 6 | 2 | S3 | ||
Geomics 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 | |||
Projects in Biomedical Engineering III. | 3 | 4 | S7 | |||
Analysis in Biomedicine. | Data Mining in Biomedicine. | 4.5 |
4 | S8 | ||
Decision Support Systems. | 4.5 | 4 | S8 |
|||
Signals in Bioengineering. | Image Techniques in Biomedicine. | 3 | 3 | S6 | ||
| 4 | S8 | ||||
| 4 | S7 | ||||
Telemedicine. | 3 | 4 | S7 | |||
Bioinformatics. | 6 | 4 | S8 | |||
Biology. | 3 | 4 |
S7 | |||
External Practices. | External Practices. | 6 | 4 | S7 | ||
End Work. | Work End Degree. | 12 | 4 | S8 |