Sylabus předmětu SI - System Engineering (FBE - WS 2019/2020)


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Course code:
SI
Course title in Czech:
System Engineering
Course title in English:
System Engineering
Semester:
WS 2019/2020
Mode of completion and number of credits:
Exam (5 credits)
Mode of delivery and timetabled classes:
full-time, 2/1 (hours of lectures per week / hours of seminars per week)
Level of course:
master continuing
Course type:
required
Type of delivery:
usual, consulting
Mode of delivery for our mobility students abroad:
-- item not defined --
Language of instruction: Czech
Course supervisor:
Course supervising department:
Faculty: Faculty of Business and Economics
Teachers: doc. Ing. František Dařena, Ph.D. (examiner, instructor, lecturer, supervisor)
Prerequisites:
 
Timetable in this semester:
Day
From-till
RoomTeacherEntry
Frequency
Capacity
Tuesday
11.00-12.50
Q06
F. DařenaSeminarOdd week
20
Tuesday
15.00-16.50
Q43
F. Dařena
Lecture
Every week
64
Thursday
13.00-14.50
Q08
Seminar
Odd week20
Thursday
13.00-14.50
Q08
SeminarEven week20
 
Aim of the course and learning outcomes:
The course brings wide knowledge from systems engineering, a field using scientific and mathematical principles for finding economical solutions of problems of various types. A special emphasis is given to multidisciplinarity and application of systems approach. The students acquire the techniques and tools that are being employed during the systems engineering process, mainly during systems analysis and synthesis. The attention is also paid to interconnection of systems engineering and information and software systems.
 
Course content:
1.
Theoretical disciplines of systems science (allowance 6/6)
 
a.
Introduction to Systems engineering
b.
General systems theory, statical and dynamical systems, cybernetics

2.
Applied disciplines of systems science (allowance 4/2)
 
a.
Systems analysis
b.
Systems synthesis

3.Systems modeling and simulation (allowance 4/2)
 
a.
Models, mathematical models
b.
Modeling and simulation processes

4.
Selected problems of systems engineering (allowance 2/0)
 
a.
Problems related to systems creation, structure, dynamics, and control
b.
System softness

5.
Architectures of systems (allowance 2/0)
 
a.
Business architectures (TOGAF, MODAF, DODAF, Zachman)
b.
Systems architectures, ISO/IEC/IEEE 42010
c.
Systems view of enterprise, information systems

6.
Systems life cycle (allowance 8/0)
 
a.
Approaches to systems life cycle (NASA, V model, DoD), Systems Engineering process
b.
Life cycle of software systems and information systems
c.Systems engineering activities

7.
Consultation of term projects (allowance 2/2)
Learning activities and teaching methods:
Type of teaching methodDaily attendance
lecture
28 h
practice
14 h
consultation
10 h
preparation for exam44 h
preparation of presentation
4 h
elaboration and execution of projects
40 h
Total
140 h
 
Assessment methods:
The course is finished by a successful project submission and passing an exam. In the project, the students demonstrate the ability of identification and definition of a dynamic system on a selected real object or process. The system is later used for solving a selected problem. The submitted document must contain all parts specified in the project assignment and can be corrected once. The written examination focuses on knowledge from systems engineering field and on the practical application of selected systems engineering methods and is evaluated as follows: A: 46 – 50 points, B: 42 – 45 points, C: 38 – 41 points, D: 34 – 37 points, E: 30 – 33 points. The course can be studied during a foreign trip.
 
Assessment criteria ratio:
Requirement type
Daily attendance
Total
0 %
 
Recomended reading and other learning resources:
Basic:
KOSSIAKOFF, A. -- SWEET, W. Systems Engineering: Principles and Practice. 2nd ed. Hoboken: Wiley, 2011. ISBN 978-0-470-40548-2.
BLANCHARD, B S. System engineering management. 4th ed. Hoboken: Wiley, 539 p. Wiley series in systems engineering and management. ISBN 978-0-470-16735-9.

Recommended:
ŠTACH, J. Teorie systémů. Praha: SNTL, 1982.
VLČEK, J. Systémové inženýrství. 1st ed. Praha: ČVUT, 1999. 291 p. ISBN 80-01-01905-5.
SHISHKO, R. NASA Systems Engineering Handbook. Nabu Press, 2011. ISBN 1-179-40988-4.

Course listed in study plans for this semester:
Field of study C-II-CAI Automation Control and Informatics, full-time form, initial period SS 2018/2019
Field of study C-SE-EI Economic informatics, full-time form, initial period SS 2018/2019
Field of study C-SE-EI Economic informatics, full-time form, initial period WS 2019/2020
Field of study C-II-CAI Automation Control and Informatics, full-time form, initial period WS 2019/2020
 
Course listed in previous semesters:
WS 2020/2021, WS 2018/2019, WS 2017/2018, WS 2016/2017, WS 2015/2016, SS 2014/2015 (and older)
Teaching place:
Brno


Last modification made by Ing. Jiří Gruber on 08/13/2019.

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