Analysis and Design of Web based Applications

B241 - Winter 24/25

Analysis and Design of Web based Applications - A7B13ANW

Credits 4
Semesters Summer
Completion Graded Assessment
Language of teaching undefined
Extent of teaching 2P+2S
Annotation
Architecture and life cycle of web based application. Information modelling of web applications. History of web oriented methods. Requirement and business analysis of web applications. Web methods (OOHDM, RMM, WebML and UWE). User oriented methods (WSDL). Data models for web based applications. Navigational modelling, navigational diagram. Presentational modelling, presentational diagram. Abstract data view. Process models for web based systems. Implementation of web based systems. Web methods (Araneus, OO-H). Run and service of web systems.
Course outlines
1. Web based applications and websites. Architecture and life cycle of web based applications. Information modelling and UML. Models special for web oriented systems.
2. History of web oriented methods. His relationship with classical and hypermedia methods. Hypermedia methods.
3. Requirement and business analysis. Use Case diagrams, etc.
4. Requirement analysis in web oriented methods. (OOHDM, RMM, WebML and UWE).
5. Users analysis, relationship with use cases. User oriented methods (WSDL).
6. Data and conceptual modelling. ER and OO conceptual diagrams. Data modelling for web based applications. Data modelling in web oriented methods (HDM, RMM, OOHDM, WebML and UWE).
7. Navigational modelling. Navigational diagram. Navigational models in web oriented methods (HDM, RMM, OOHDM).
8. Navigational models in web oriented methods (WebML, UWE, Araneus and OO-H).
9. Presentation modelling and diagram. Abstract data view. Presentational models in web oriented methods (HDM, RMM and OOHDM).
10. Presentation modelling and diagram. Abstract data view. Presentational models in web oriented methods (WebML, UWE, Araneus and OO-H).
11. Process modelling in web oriented methods. Diagrams and relationships.
12. CASE support for web oriented methods. UML based tools (ArgoUWE).
13. Automation generation of web based application in different methods (OOHDM, WebML, Araneus, OO-H and UWE). Service and run of web based system.
14. Reserve
Exercises outlines
1. Personality measurement, project topics
2. Team distribution, selection of project
3. Requirement and feasibility analysis
4. Method and technology selection
5. Presentation of preliminary study
6. User analysis and use CASE study
7. Conceptual model of application
8. Navigational model of application
9. Presentation of conceptual and navigational models
10. Presentational model study
11. Study of applications processes
12. Presentation of presentation and process models
13. Opponent study
14. Credits
Literature
Ian Sommerville: Software Engineering
OMG: UML reference and specification
Molhanec: Web Oriented Methods (Lecture Notes on University Web, later printed issue)
Requirements
Prerequisites: Y36DBS, Y36SIN

Courseware at Moodle CTU: http://ocw.cvut.cz/moodle/course/view.php?id=67. The use of Moodle CTU is mandatory.