Bioengineering Systems and Technologies in Saint-Petersburg State University of Aerospace Instrumentation

Bachelor’s program, Master’s program


Institute of Radio Engineering, Electronics and Communications,
Department of Medical Radioelectronics


Oksana Tikhonenkova, Acting Head of the Department
+7 (812) 494-70-24,


Accreditation. State accreditation. Professional-public accreditation.

Awards and achievements. Students are winners and laureates of all-Russian research and creative contests. They are actively engaged in the department’s research, publish their research findings and speak at science and technology conferences. This experience allows them to successfully pursue a PhD program.

Teaching staff. The department employs highly qualified specialists, Doctors and Candidates of Sciences, research fellows at research institutes and specialized organizations who have unique knowledge, skills and experience in the development of hardware, algorithms and software for bioengineering systems, in biomechanical modeling, research.

Facilities and resources. To develop and consolidate practical skills in the development of hardware, algorithms and software for bioengineering systems, students use technical resources of the department’s specialized laboratories fitted with a set of control and
measuring equipment, special multichannel systems for signal recording, rapid prototyping benches, and special software.

Education. The department trains specialists such as developers of medical devices, their blocks and nodes, software; engineers for management and technical support of medical equipment stock for healthcare organizations; medical equipment maintenance and repair specialists. These areas determine the philosophy and methodology of the program.

Research. With active involvement of students, the department conducts research in the following areas: location and movement monitoring systems, in particular, for individual motor units; modeling of human movement and movement of individual organs in the
normal conditions, in pathologies, and in prosthetics, and other areas.

Competitive advantages. High demand for graduates in the job market. Competitive admission. Unique equipment. Highly qualified teachers. Efficiently developed practical training facilities. Close relationships with prospective employers.

Employers and employment. The rate of graduates employed according to their acquired competencies is 83%. Students undergo practical training at medical engineering enterprises. This opens up the opportunities for them to improve their professional competencies and gives them a competitive edge in finding a job in their degree field at firms such as Biomedsystem (biomedical systems), Mitsar, Bianalaitika, Biocad, Medtehnika, and others.

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