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A course is the basic teaching unit, it's design as a medium for a student to acquire comprehensive knowledge and skills indispensable in the given field. A course guarantor is responsible for the factual content of the course.
For each course, there is a department responsible for the course organisation. A person responsible for timetabling for a given department sets a time schedule of teaching and for each class, s/he assigns an instructor and/or an examiner.
Expected time consumption of the course is expressed by a course attribute extent of teaching. For example, extent = 2 +2 indicates two teaching hours of lectures and two teaching hours of seminar (lab) per week.
At the end of each semester, the course instructor has to evaluate the extent to which a student has acquired the expected knowledge and skills. The type of this evaluation is indicated by the attribute completion. So, a course can be completed by just an assessment ('pouze zápočet'), by a graded assessment ('klasifikovaný zápočet'), or by just an examination ('pouze zkouška') or by an assessment and examination ('zápočet a zkouška') .
The difficulty of a given course is evaluated by the amount of ECTS credits.
The course is in session (cf. teaching is going on) during a semester. Each course is offered either in the winter ('zimní') or summer ('letní') semester of an academic year. Exceptionally, a course might be offered in both semesters.
The subject matter of a course is described in various texts.

NI-PVS Advanced embedded systems Extent of teaching: 2P+2C
Instructor: Completion: Z,ZK
Department: 18103 Credits: 4 Semester: Z

Annotation:
The course is focused on ARM processors and microcontrollers and their usage in wide range of applications. The course includes a series of advanced topics like security support, working with mass storage devices, motor control, system control and industrial communication. The students obtain both theoretical and also practical experiences with embedded systems.

Lecture syllabus:
1. ARM processor architecture
2. ARM development tools
3. ARM peripherals
4. Consumption optimization in microcontrollers
5. Security support in microcontrollers
6. Advanced sensors (MEMS, humidity, ultrasound, GPS)
7. USB host, writing data to mass storage, SD cards
8. Signal processing (filters, FFT), signal processors
9. Motor and stepper motor control
10. Feedback, continuous, non-continuous and digital control, PID
11. Industrial busses and communication (industrial Ethernet, Modbus, Fieldbus, CAN)
12. Linux platforms, mixed platforms GPU, FPGA
13. Reserved

Seminar syllabus:
The labs are composed as a set of task on real devices like meteorology station with data acquisition, motor rotation speed control, CAN bus communication. Each task covers several topics from lectures.

Literature:
Noergaard, T.: Embedded System Architecture. Elsevier Inc., 2005. ISBN: 0-7506-7792-9

Requirements:
Programming in C, Linux OS

Informace o předmětu a výukové materiály naleznete na https://courses.fit.cvut.cz

The course is also part of the following Study plans:
Study Plan Study Branch/Specialization Role Recommended semester
NI-PB.2020 Computer Security V Není
NI-ZI.2020 Knowledge Engineering V Není
NI-SPOL.2020 Unspecified Branch/Specialisation of Study V Není
NI-TI.2020 Computer Science V Není
NI-TI.2023 Computer Science V Není
NI-NPVS.2020 Design and Programming of Embedded Systems V Není
NI-PSS.2020 Computer Systems and Networks V Není
NI-MI.2020 Managerial Informatics V Není
NI-SI.2020 Software Engineering (in Czech) V Není
NI-SP.2020 System Programming V Není
NI-WI.2020 Web Engineering V Není
NI-SP.2023 System Programming V Není


Page updated 28. 3. 2024, semester: Z/2023-4, L/2019-20, L/2022-3, Z/2019-20, Z/2022-3, L/2020-1, L/2023-4, Z/2020-1, Z,L/2021-2, Send comments to the content presented here to Administrator of study plans Design and implementation: J. Novák, I. Halaška