Design et évaluation de prototypes web

mcomu2211  2022-2023  Mons

Design et évaluation de prototypes web
5.00 credits
15.0 h
Q2
Teacher(s)
Kieffer Suzanne;
Language
French
Main themes
  • Theoretical frameworks and disciplines for prototyping: (rapid) contextual design, rapid prototyping, cognitive engineering, usability engineering, agile method
  • Interrelation between the design and evaluation processes of systems, products, and Web services
  • Methodological principles used in prototyping: design and evaluation methods, prototyping techniques, user testing, validity of user tests, data collection
  • Specificities of user testing compared to other empirical research methods such as interviewing, observation, laboratory experimentation, A/B testing, etc.
Learning outcomes

At the end of this learning unit, the student is able to :

1 Explain and make connections between the different concepts associated with prototyping.
 
2 Compare different prototyping techniques in terms of specific objectives, expected results, procedures, constraints (time, resources, budget).
 
3 Select and sequence several prototyping techniques to produce a web prototype iteratively and incrementally
 
4 Effectively conduct a series of user tests to improve the Web prototype.
 
5 Analyze the relevance of the data collected and reorganize if necessary the experimental protocol used in the user tests.
 
6 Justify and argue the choice of design (prototyping) and evaluation (user testing) methods.
 
Content
What is prototyping? What is a prototype?
Types of prototype (storyboard, paper prototype, wireframe, coded prototype...)
The prototype in a test-and-refine approach (i.e., iterative and incremental)
Formative user testing (improvement) versus summative user testing (validation)
Data collection, data management and data processing
Teaching methods
The pedagogical approach is blended teaching, which alternates face-to-face classroom teaching with online distance learning via Microsoft Teams. Some activities (e.g. knowledge test or peer review) take place online. Moreover, some sessions are replaced by autonomous work activities carried out individually (e.g. user tests). The teaching methods are flipped classroom and project-based teaching:
  • Flipped classroom: students study the material at home and then meet their teacher and peers in a classroom to ask questions, get additional help or to work with their peers;
  • Project-based teaching: students develop a project by combining online learning and face-to-face meetings.
Evaluation methods
Continuous assessment without examination in June. The evaluation includes two modes: group assignments (50% of the final grade) and individual assignments (50% of the final grade). In September, individual custom assignment due the first day of the session.
Other information
All relevant information regarding these modalities and the progress of the activities (calendar, detailed instructions, evaluation criteria, etc.) are presented during the first session and are available on the Student-Corner.
Some resources (e.g. bibliographic resources, slides, explanatory videos) are in English.
Online resources
Student-Corner (asynchronous): course slides, bibliographic resources, calendar, models and rubrics, H5P
exercises, tests, assignments, workshops with peer assessment, group choice, Q&A forum
Microsoft Teams (live): calendar, meetings, documents, discussion, lecture notes
Web links: how-to videos, websites, online software
Bibliography
Arnowitz, J., Arent, M., & Berger, N. (2010). Effective prototyping for software makers. Elsevier.
Coyette, A., Kieffer, S., & Vanderdonckt, J. (2007, September). Multi-fidelity prototyping of user interfaces. In IFIP Conference on Human-Computer Interaction (pp. 150-164). Springer, Berlin, Heidelberg.
Henreaux, E., Noutcha, M., Phan-Ngoc, T., & Suzanne, K. (2021, July). Design Sprints Integrating Agile and Design Thinking: A Case Study in the Automotive Industry. In International Conference on Applied Human Factors and Ergonomics (pp. 189-195). Springer, Cham.
Kieffer, S., Lawson, J. Y. L., & Macq, B. (2009, April). User-centered design and fast prototyping of an ambient assisted living system for elderly people. In 2009 Sixth International Conference on Information Technology: New Generations (pp. 1220-1225). IEEE.
McCurdy, M., Connors, C., Pyrzak, G., Kanefsky, B., & Vera, A. (2006, April). Breaking the fidelity barrier: an examination of our current characterization of prototypes and an example of a mixed-fidelity success. In Proceedings of the SIGCHI conference on Human Factors in computing systems (pp. 1233-1242).
Rukonic, L., Mwange, M. A. P., & Kieffer, S. (2021). UX Design and Evaluation of Warning Alerts for Semi-autonomous Cars with Elderly Drivers. In VISIGRAPP (2: HUCAPP) (pp. 25-36).
Faculty or entity
COMU


Programmes / formations proposant cette unité d'enseignement (UE)

Title of the programme
Sigle
Credits
Prerequisites
Learning outcomes
Master [120] in Communication

Master [60] in Information and Communication

Master [120] in Communication

Master [120] in Journalism