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Cursus: 202001024
202001024
Software Systems Core
Cursus informatie
Cursus202001024
Studiepunten (ECTS)12
CursustypeOnderwijseenheid
VoertaalEngels
Contactpersoondr. T. van Dijk
E-mailt.vandijk@utwente.nl
Docenten
VorigeVolgende 5
Docent
dr. F. Ahmed
Examinator
dr. G. Caltais
Examinator
dr. T. van Dijk
Docent
dr. T. van Dijk
Contactpersoon van de cursus
dr. T. van Dijk
Collegejaar2022
Aanvangsblok
1B
OpmerkingTCS/AT students register in Osiris; others contact modulesupport-tcs@utwente.nl. Minor students: register for the minor!
AanmeldingsprocedureZelf aanmelden via OSIRIS Student
Inschrijven via OSIRISJa
Cursusdoelen
Concerning Software Design, after successfully finishing this module a student is capable of:
  • Specifying an existing software system or a software system under design by using UML models, with the help of software tools that are suitable for this purpose.
  • Analysing relations among entities within a model, among different models and between each model and software code.
  • Performing requirements eliciting interviews, and integrating knowledge gained from them into appropriate models of a software system.
  • Explaining the commonly recognized phases of a structured software development process.
  • Measuring and interpreting basic software metrics to assess the quality characteristics of a code base.
Concerning Programming, after successfully finishing this module a student is capable of:
  • Applying the core concepts of imperative programming, such as variables, data types, structured programming statements, recursion, lists, arrays, methods, parameters and exceptions.
  • Applying the core concepts of object-oriented programming, such as encapsulation, abstraction, inheritance and polymorphism.
  • Applying software design patterns to avoid tight coupling between different components of software, such as use of interfaces, the listener pattern and the Model-View-Controller pattern.
  • Explaining problems with concurrent threads (race conditions) and applying basic synchronisation mechanisms to eliminate data races.
  • Implementing client-server programs using Java sockets.
  • Applying the basic concepts and techniques of security engineering to address the challenges of producing secure software.
  • Implementing software of average size (10-20 classes) in Java by using the core concepts of imperative programming and object-orientation.
  • Documenting software of average size (10-20 classes) by defining preconditions, postconditions and (class) invariants.
  • Defining and performing a test plan for software of average size (10-20 classes) with appropriate test coverage.
  • Collaborating with other students according to the pair programming method.
Concerning Academic Skills, after successfully finishing this module a student is capable of:
  • Applying the most important principles and techniques for effective time management, like personal planning elaboration and reflection, identification of personal strengths and weaknesses, giving and receiving feedback, and procrastination avoidance, in a project of limited complexity.
Inhoud
In this module, the students are introduced to the design, implementation and testing of software systems, and to performing a project independently.

For the design of software systems, they learn to use Software Engineering models, particularly the UML diagrams (class diagrams, activity diagrams and statecharts), and they get acquainted with the waterfall software development processes.

For the programming of software systems, they learn the core concepts of program structuring, object-orientation and multi-threading with the help of the Java programming language, with attention to correctness by means of (informal) preconditions and postconditions. In addition, the module addresses security engineering aspects in the context of Java. In this module the students build upon the knowledge on algorithms and recursion acquired in Module 1. For testing software systems, the students learn to distinguish among the different levels at which testing can be performed (especially unit testing and system testing), the principles underlying a test plan and a couple of relatively simple testing techniques.

For academic and project skills, attention is given to project management, planning, time- and self-management, and reflection on one’s own behavior w.r.t. planning.

Mandatory literature David J. Eck Introduction to Programming Using Java is available online at https://math.hws.edu/javanotes

For questions concerning the module, please email: module2-tcs@utwente.nl

Voorkennis
(additional) requirement(s) for minorstudents: Maths A level or equivalent.
Participating study
Bachelor Technical Computer Science
Module
Module 2
Verplicht materiaal
Book
David J. Eck Introduction to Programming Using Java, Eighth Edition, Version 8.1.2, December 2020. Available online at https://math.hws.edu/javanotes
Course guide
Reader 'Softwaresystems' 2021-2022.
Aanbevolen materiaal
Book
Chapter 14, until BlockingQueues (p. 819 - 877) from C.S. Horstmann and G. Cornell, Core Java, volume I: Fundamentals. Prentice Hall, 9th edition, 2012.
Book
Chapter 3, until Making URL Connections (p. 185 - 210) from C.S. Horstmann and G. Cornell, Core Java, volume II: Advanced Features. Prentice Hall, 9th edition, 2012.
Werkvormen
Practicum

Project begeleid

Vragenuur

Zelfstudie geen begeleiding

Toetsen
Design Theory

Design Project

Programming Theory and Skills

Programming Project

Additional Requirements

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