Course detail
Microprocessor Devices in Biomedicine
FEKT-MPC-MKPAcad. year: 2023/2024
Not applicable.
Language of instruction
Czech
Number of ECTS credits
5
Mode of study
Not applicable.
Guarantor
Entry knowledge
Not applicable.
Rules for evaluation and completion of the course
Not applicable.
Aims
Not applicable.
Study aids
Not applicable.
Prerequisites and corequisites
Not applicable.
Basic literature
RAFIQUZZAMAN, Mohamed. Microprocessors and microcomputer-based system design. 2nd ed. Boca Raton, Fla.: CRC Press, c1995. ISBN 0849344751. (CS)
TOGAWA, Tatsuo, Toshiyo. TAMURA a P. Åke. ÖBERG. Biomedical sensors and instruments. 2nd ed. Boca Raton: CRC Press, c2011. ISBN 9781420090789. (CS)
TOGAWA, Tatsuo, Toshiyo. TAMURA a P. Åke. ÖBERG. Biomedical sensors and instruments. 2nd ed. Boca Raton: CRC Press, c2011. ISBN 9781420090789. (CS)
Recommended reading
Not applicable.
Classification of course in study plans
- Programme MPC-BTB Master's 1 year of study, summer semester, compulsory
Type of course unit
Lecture
26 hod., optionally
Teacher / Lecturer
Syllabus
1. Operations in the binary system, presentation of information in the computer
2. Logical functions, combinational logic circuits, sequential circuits
3. Basic structure of microprocessors.
4. Languages for communication with microprocessors, instruction sets, machine code, higher-level languages. Software and microcontroller programming options.
5. Software tools for design and simulation of hardware connections.
6. Fundamentals of programming microcontrollers, control of program execution, execution of instruction cycles, conditions, interruptions.
7. Bus, device communication via the bus.
8. Sensors for sensing biological signals and their properties from the point of view of connection with microprocessor technology.
9. Software tools for program simulation and debugging.
10. Peripherals for displaying and processing input signals. Signal processors in bioengineering.
11. Legislation and safety related to microprocessor technology in medicine.
12. Microprocessor technology trends in medicine, telemedicine, personal monitors, etc.
2. Logical functions, combinational logic circuits, sequential circuits
3. Basic structure of microprocessors.
4. Languages for communication with microprocessors, instruction sets, machine code, higher-level languages. Software and microcontroller programming options.
5. Software tools for design and simulation of hardware connections.
6. Fundamentals of programming microcontrollers, control of program execution, execution of instruction cycles, conditions, interruptions.
7. Bus, device communication via the bus.
8. Sensors for sensing biological signals and their properties from the point of view of connection with microprocessor technology.
9. Software tools for program simulation and debugging.
10. Peripherals for displaying and processing input signals. Signal processors in bioengineering.
11. Legislation and safety related to microprocessor technology in medicine.
12. Microprocessor technology trends in medicine, telemedicine, personal monitors, etc.
Laboratory exercise
26 hod., compulsory
Teacher / Lecturer
Syllabus
1. Operations in the binary system, presentation of information in the computer
2. Logical functions, combinational logic circuits, sequential circuits
3. Basic structure of microprocessors.
4. Languages for communication with microprocessors, instruction sets, machine code, higher-level languages. Software and microcontroller programming options.
5. Software tools for design and simulation of hardware connections.
6. Fundamentals of programming microcontrollers, control of program execution, execution of instruction cycles, conditions, interruptions.
7. Bus, device communication via the bus.
8. Sensors for sensing biological signals and their properties from the point of view of connection with microprocessor technology.
9. Software tools for program simulation and debugging.
10. Peripherals for displaying and processing input signals. Signal processors in bioengineering.
11. Legislation and safety related to microprocessor technology in medicine.
12. Microprocessor technology trends in medicine, telemedicine, personal monitors, etc.
2. Logical functions, combinational logic circuits, sequential circuits
3. Basic structure of microprocessors.
4. Languages for communication with microprocessors, instruction sets, machine code, higher-level languages. Software and microcontroller programming options.
5. Software tools for design and simulation of hardware connections.
6. Fundamentals of programming microcontrollers, control of program execution, execution of instruction cycles, conditions, interruptions.
7. Bus, device communication via the bus.
8. Sensors for sensing biological signals and their properties from the point of view of connection with microprocessor technology.
9. Software tools for program simulation and debugging.
10. Peripherals for displaying and processing input signals. Signal processors in bioengineering.
11. Legislation and safety related to microprocessor technology in medicine.
12. Microprocessor technology trends in medicine, telemedicine, personal monitors, etc.