Course Unit Code | 450-4003/05 |
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Number of ECTS Credits Allocated | 5 ECTS credits |
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Type of Course Unit * | Optional |
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Level of Course Unit * | Second Cycle |
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Year of Study * | |
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Semester when the Course Unit is delivered | Winter Semester |
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Mode of Delivery | Face-to-face |
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Language of Instruction | English |
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Prerequisites and Co-Requisites | Course succeeds to compulsory courses of previous semester |
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Name of Lecturer(s) | Personal ID | Name |
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| SLA77 | Ing. Zdeněk Slanina, Ph.D. |
Summary |
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Basic charakteristics of critical RT-systems. Analysis and design of software for control and information systems. The structured design techniques: DFD, Ward Mellor , Mascot, DARTS. Object oriented approaches. design patterns. The COM technology. Distributed systems and DCE. |
Learning Outcomes of the Course Unit |
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Upon subject completion the student knows the basic characteristics of RT critical systems. he is familiarized with fundamentals structured approach s to the analysis and design of RT systems. He has basic knowledge about modern trends in the field of design and implementation such as object approaches, design patterns, component technologies and a tools for development of distributed applications and problems connected with their implementation. |
Course Contents |
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Lectures:
• Basic concepts of industrial automation. Business hierarchy. Using computers for control.
• Software engineering. Software analysis. Systém specification. Software modeling importance. Software life cycle.
• Structured software design methods. Data Flow Diagram. Entity-relationship model. Yourdon structured method. State Transition Diagram. Real-time systems extension of structured design.
• Object oriented design methods. Unified Modeling Language. UML and description of the software structure.
• UML and software behavior description. UML and description of software interaction description. Real-time systems extension of object oriented design.
• Software versioning. Concurrent Version System. Subversion. Git.
• Design Patterns. Architecture of software systems.
• Software testing. Testing models. Standards for testing. Software for error management. Application for tracing and debugging.
• The importance of communication buses and networks for the use of computer control systems.
• Real-time systems. Safety and security issues of the software.
• Parallel and distributed processing. Remote Procedure Calls. Client/Server architecture.
• Use of databases for industrial measurement and control.
• Internet of things. Use of cloud in control systems. Industry 4.0.
• Essential resources for computer control systems. Operating systems. Programming languages. Physical model and software implementation in a case study.
Projects:
• Project 1 - Analysis and design of software for the given issue. The project is solved in teams and includes all topics from the lectures in order to create a software specification. Examples include a smart house, drones management, a parking house, an electric cars charging infrastructure support, and so on.
• Project 2 - Analysis and design of software for Raspberry Pi platform (or minicomputers with real-time operating system). The project is solved in teams too and topic is a small functional part of a larger technological unit that is dedicated to the field of the internet of things or as part of a client/server architecture for real tasks or processes measuring or control.
Computer labs:
• Project analysis using a data flow diagram.
• Behavior analysis using the state transition diagram.
• Project analysis using UML - use case diagram.
• Project analysis using UML - class diagram.
• Project analysis using UML - component diagram.
• Project analysis using UML - state diagram.
• Project analysis using UML - activity diagram.
• Project analysis using UML - timing diagram.
• Project analysis using UML - other diagrams.
• Processing of projects.
• Presentation of project No. 1.
• Introduction to operating systems for computer control systems.
• Credit. |
Recommended or Required Reading |
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Required Reading: |
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Shalloway A., Trott J.R. Design Patterns Explained – A new perspective on Object Oriented Design. 357 p. Addison-Wesley Professional 2004. ISBN 978-0321247148.
Booch G., Rumbaugh J., Jacobson I. The Unified Modeling Language User Guide. 496 p. Addison-Wesley Professional 2005. ISBN 978-0321267979.
King K.N. C Programming: A Modern Approach. 832 p. W. W. Norton & Company 2008. ISBN 978-0393979503.
Albahari J., Albahari B. C# 5.0 in a Nutshell: The Definitive Reference. 1064 p. O'Reilly Media 2012. ISBN 978-1449320102.
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Černohorský J. Řídicí systémy s počítači – učební text a návody do cvičení. VŠB-TU Ostrava 2013.
Vondrák I. Metody specifikace softwarových systémů pro kombinované a distanční studium. VŠB-TU Ostrava 2005.
Erl T. SOA Servisně orientovaná architektura – Kompletní průvodce. 672 s. ComputerPress 2009. ISBN 9788025118863.
Kernigham B.W., Rotchie D.M. Programovací jazyk C. 288 s. ComputerPress 2006. ISBN 9788025108970.
Mareš A. 1001 tipů a triků pro C# 2010. 416 s. ComputerPress 2011. ISBN 9788025132500.
UML. Dostupné online na www.uml.org.
RASPBERRY PI. Dostupné online na www.raspberrypi.org.
Řídicí systémy s počítači. Stránky předmětu dostupné online v rámci univerzity na http://rc111.vsb.cz/rssp.
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Recommended Reading: |
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Ardence RTX for Windows. Homepage at http://www.ardence.com
RTAI - the RealTime Application Interface for Linux from DIAPM. Homepage at https://www.rtai.org
RTLinuxFree. Homepage at http://www.rtlinuxfree.com
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Černohorský,J.: Sylaby k předmětu Řídicí systémy s počítači II. Sylaby na WWW stránkách katedry,2002
Ardence RTX for Windows. Homepage at http://www.ardence.com
RTAI - the RealTime Application Interface for Linux from DIAPM. Homepage at https://www.rtai.org
RTLinuxFree. Homepage at http://www.rtlinuxfree.com
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Planned learning activities and teaching methods |
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Lectures, Individual consultations, Tutorials, Project work |
Assesment methods and criteria |
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Tasks are not Defined |