Version française
This option is available only to students with a minor or major in biomedical engineering during the bachelor program.
This option is not available in English.
The biomedical engineering option aims to train engineers able to meet future technological challenges in scientific and technical areas related to biomedical engineering.
This option will provide students with basic knowledge of bioinformatics and several other fields of biomedical engineering including: bio-instrumentation, biomaterials, medical imaging, mathematical modeling, artificial organs and rehabilitation and biomechanics.
Through collaboration between the Ecole Polytechnique and the Faculty of Medicine, the curriculum aims to develop in students an interdisciplinary education where the art of engineering is applied to the biomedical domain, both complex and diverse.
This option is not available in English.
The biomedical engineering option aims to train engineers able to meet future technological challenges in scientific and technical areas related to biomedical engineering.
This option will provide students with basic knowledge of bioinformatics and several other fields of biomedical engineering including: bio-instrumentation, biomaterials, medical imaging, mathematical modeling, artificial organs and rehabilitation and biomechanics.
Through collaboration between the Ecole Polytechnique and the Faculty of Medicine, the curriculum aims to develop in students an interdisciplinary education where the art of engineering is applied to the biomedical domain, both complex and diverse.
> Legend 
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The student who has chosen this option shall select |
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| De 20 à 30 credits parmi | ||||||||
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| 1 | 2 | |||||||
Compulsory courses in biomedical engineering
Students who have chosen this option shall select at least 15 credits from amongst the following compulsory courses, except engineering Master's students in computer science who shall take 20 credits. |
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LGBIO2010
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Bioinformatics | Pierre Dupont, Michel Ghislain | 30h+30h | 5 credits | 2q | x | x | |
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LGBIO2020
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Bioinstrumentation | André Mouraux, Michel Verleysen | 30h+30h | 5 credits | 1q | x | x | |
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LGBIO2030
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Biomaterials | Sophie Demoustier, Christine Dupont, Gaëtane Leloup | 30h+30h | 5 credits | 1q | x | x | |
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LGBIO2040
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Biomechanics | François Henrotte (compensates Emilie Marchandise), Emilie Marchandise | 30h+30h | 5 credits | 2q | x | x | |
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LGBIO2050
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Medical Imaging | Anne Bol, John Lee, Benoît Macq, Frank Peeters | 30h+30h | 5 credits | 1q | x | x | |
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LGBIO2060
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Modelling of biological systems | Philippe Lefèvre | 30h+30h | 5 credits | 1q | x | x | |
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LGBIO2070
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Artificial organs and rehabilitation | Luc-Marie Jacquet, Philippe Lefèvre, Renaud Ronsse | 30h+30h | 5 credits | 2q | x | x | |
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Elective courses in biomedical engineering for ELEC students
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LELEC2870
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Machine Learning : regression, dimensionality reduction and data visualization | John Lee (compensates Michel Verleysen), Michel Verleysen | 30h+30h | 5 credits | 1q | x | x | |
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LELEC2885
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Image processing and computer vision | Christophe De Vleeschouwer (coord.), Laurent Jacques (compensates Christophe De Vleeschouwer), Benoît Macq | 30h+30h | 5 credits | 1q | x | x | |
