Explore the programs and courses offered by Master in Electronics and Biomedical Maintenance
Browse Programs Admission InformationThe Master’s in Electronics and Biomedical Maintenance aims to train future engineers in the field of biomedical instrumentation and the development of new systems for diagnostic and therapeutic support. It provides in-depth expertise in various modalities of instrumentation and medical imaging, as well as in the application of signal and image processing techniques to address challenges in the biomedical field.
Graduates acquire the necessary skills to select, manage, and operate medical equipment and hospital biomedical technologies. Furthermore, this master’s program enables them to lead innovative projects and encourages the creation and development of specialized companies in biomedical engineering.
The program covers fundamental courses that provide essential knowledge and practical skills in biomedical electronics and maintenance. Students will study biomedical sensors and electronics, microprocessors and microcontrollers, and advanced signal processing to understand the core technologies used in medical devices. They will also explore medical imaging techniques, biomedical instrumentation, and medical device prototyping and maintenance, ensuring hands-on experience with cutting-edge healthcare technologies.
Additionally, courses in hospital equipment management, regulations, safety, and ethics prepare students for the operational and compliance aspects of the field.
The curriculum includes programming for science and technology, biomechanics, biophysics, and biomaterials, along with specialized topics such as medical gas distribution systems and therapeutic instrumentation.
Finally, an internship in a hospital or industry allows students to apply their knowledge in real-world biomedical settings.
The program includes advanced topics that provide specialized knowledge in biomedical technology and innovation. Students will explore biomaterials and nanotechnology for medical instrumentation, focusing on cutting-edge materials used in healthcare devices. Artificial intelligence in biomedical applications introduces AI-driven solutions for diagnostics and treatment.
Medical gas distribution systems and therapeutic instrumentation cover critical hospital infrastructure and assistive technologies. Additionally, modeling of medical devices and biomedical prototyping equip students with skills for developing and optimizing medical technologies.
The curriculum also emphasizes marketing and innovation management, preparing students for entrepreneurship in the biomedical sector.
Finally, functional exploration techniques and rehabilitation instrumentation provide insights into advanced diagnostic and therapeutic solutions in modern healthcare.
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