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SylabUZ

  1. SylabUZ
  2. Faculty of Computer Science, Electrical Engineering and Automatics
  3. winter term 2018/2019
  4. WIEiA - oferta ERASMUS / Automatic Control and Robotics - First-cycle Erasmus programme
  5. Mobile application design
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Mobile application design - course description

General information
Course name Mobile application design
Course ID 11.3-WE-AutP-MAD-Er
Faculty Faculty of Computer Science, Electrical Engineering and Automatics
Field of study WIEiA - oferta ERASMUS / Automatic Control and Robotics
Education profile -
Level of studies First-cycle Erasmus programme
Beginning semester winter term 2018/2019
Course information
Semester 6
ECTS credits to win 3
Course type optional
Teaching language english
Author of syllabus
  • dr inż. Andrzej Popławski
Classes forms
The class form Hours per semester (full-time) Hours per week (full-time) Hours per semester (part-time) Hours per week (part-time) Form of assignment
Lecture 30 2 - - Credit with grade
Laboratory 30 2 - - Credit with grade

Aim of the course

  • To provide fundamental knowledge in subject of techniques used in mobile systems.
  • To give abilities and competence in design and implementation mobile application for chosen platform.

Prerequisites

Programming with basics of algorithmics, Object-oriented programming.

Scope

Introduction – idea and significance of mobile application. Concepts of mobile systems .Mobile phone systems. Structure and action of GSM system. Present day communication systems (satellite, LAN, ultrasound, IrDA, Bluetooth). Satellite navigation systems.  Problems in mobile application design. Military deployment of mobile application.

Teaching methods

Lecture, laboratory exercises.

Learning outcomes and methods of theirs verification

Outcome description Outcome symbols Methods of verification The class form

Assignment conditions

Lecture – in order to get a credit it is necessary to pass all tests (oral or written) carried on at last once per semester.

Laboratory – in order to get a credit it is necessary to earn positive grades for all laboratory works defined by the tutor.

Calculation of the final grade: lecture 50% + laboratory 50%

Recommended reading

1. Conder S., Darcey L.: Android. Programowanie aplikacji na urządzenia przenośne. Gliwice, Helion, 2011

2. Gala P.: Symbian S60. Programowanie Urządzeń Mobilnych, Gliwice, Helion, 2010

3. Zienkiewicz R.: Telefony komórkowe GSM I DCS, Warszawa, WKŁ, 1999

4. Flickenger R.: Sto sposobów na sieci bezprzewodowe, Gliwice, Helion, 2004

5. Roshan P., Leary J.: Bezprzewodowe sieci LAN 802.11, Warszawa, Mikom, 2004

6. Friesen J.: Java. Przygotowanie do programowania na platformę Android, Helion, Gliwice, 2011

7. Conder S., Darcey L.: Android Wireless Application Development. Addison-Wesley Professional, 2011

8. Friesen J.: Learn Java for Android Development, Apress2010

Further reading

Notes


Modified by dr hab. inż. Wojciech Paszke, prof. UZ (last modification: 03-05-2020 21:23)

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