Biomedical Engineering of Artificial Organs
National Research University of Electronic Technology (MIET)
DESCRIPTION OF MASTER PROGRAM
(HIGHER EDUCATION)
«Biomedical Engineering of Artificial Organs»
Education Field: 12.04.04 «Biomedical Engineering»
1. INRODUCTION
1.1. The educational program is aimed at the development and self-development of a researcher-developer's holistic personality who is ready to participate in all stages of the process of developing personalized, wearable and implantable biomedical systems - from an idea and concept through design, prototyping, testing and certification to setting up for serial production. The program involves the close interaction of educational and scientific processes with the active participation of students, faculty and research staff.
2. MISSION AND OBJECTIVES OF THE EDUCATIONAL PROGRAM
2.1. Mission of the educational program
The development and self-development of a world-class researcher and developer who is in demand in the field of personalized, wearable and implantable biomedical systems development.
Слайд 2. Миссия (к описанию)
2.2. Objectives of the educational program
1. The formation of socio-personal qualities: responsibility, determination, self-organization and communication.
2. Professional training to successfully carrying out R&D in the field of personalized, wearable and implantable biomedical systems development.
3. Direct participation in the development of personalized, wearable and implantable biomedical systems.
3. GENERAL CHARACTERISTIC OF THE EDUCATIONAL PROGRAM
Orientation (profile) – Personalized, wearable and implantable biomedical systems
Assigned qualification – Master
Mode of study – full-time
Languages of instruction – Russian
Duration of study – 2 years
Requirements for the applicant
Diploma of higher education at any level. Other requirements are established by the Rules for admission to the MIET for a particular academic year.
4. CHARACTERISTIC OF PROFESSIONAL ACTIVITY OF GRADUATES OF THE EDUCATIONAL PROGRAM
|
Area of professional activity |
Types of professional tasks |
Tasks of professional activity |
Objects of professional activity (or field of knowledge) |
|
26 Chemical and technological production |
Scientific-research |
Analysis of scientific and technical information on the development of biotechnological systems and technologies, medical products |
The priority objects are personalized, wearable and implantable biomedical systems.
Secondary objects - other technical systems, the structure of which includes any living objects and which are associated with the monitoring and control of the state of living systems, ensuring their livelihoods. |
|
Experimental studies to create innovative biotechnological systems and technologies, medical devices, integration of biotechnological systems |
4.1. Planned results of mastering the educational program
As a result of mastering the program, the following competencies should be formed at the graduate:
Universal competencies (UC)
UC-1. Ability to carry out a critical analysis of problem situations based on a systematic approach, develop an action strategy
UC-2. Ability to manage a project at all stages of its life cycle
UC -3. Ability to organize and manage the work of the team, developing a team strategy to achieve the goal
UC-4. Ability to apply modern communication technologies, including in a foreign language (s), for academic and professional interaction
UC-5. Ability to analyze and take into account the diversity of cultures in the process of intercultural interaction
UC-6. Ability to determine and implement the priorities of their own activities and ways to improve them on the basis of self-esteem
General professional competencies (GPC)
GPC-1. Ability to present a modern scientific picture of the world, identify the natural science essence of the problem, formulate tasks, determine ways to solve them and evaluate the effectiveness of the choice and methods of legal protection of the results of intellectual activity, taking into account research, development and design of biotechnological systems and technologies.
GPC -2. Ability to organize the conduct of scientific research and development, to present and reasonably protect the results of intellectual activity related to research methods and means in the field of biotechnological systems and technologies
GPC -3. Ability to acquire and use new knowledge in his subject area based on information systems and technologies, offer new ideas and approaches to solving engineering problems.
Professional competencies (PC)
|
Types of professional tasks |
Code and name of professional competence of a master's program graduate |
|
Scientific-research |
PC-1. Ability to analyze the state of a scientific and technical problem, technical specifications and setting goals and objectives for the design of biotechnological systems and medical devices based on the selection and study of literature and patent sources |
|
PC-2. Ability to choose a method and develop experimental research programs, conduct biomedical research using technical means, choose a method for processing research results |
5. STRUCTURE AND VOLUME OF THE EDUCATIONAL PROGRAM
|
Structure |
Volume (ECTS) |
|
|
Unit 1 |
Modules (disciplines) |
51 |
|
Unit 2 |
Practice |
63 |
|
Unit 3 |
State final certification (master's theses) |
6 |
|
Total Volume |
120 |
|
The volume of the program implemented in one academic year – 60 ECTS
Types of practices:
– training;
– manufacturing.
Types of educational practice: design and engineering practice, undergraduate practice.
Types of manufacturing practice: design and engineering practice.
State final certification: preparation for the defense procedure and defense of the final qualification work (master's theses).