Syllabus, valid from 2021-08-30

Title

Data Analysis and Visualization

Swedish title

Dataanalys och visualisering

Course code

ME659E

Credits

15 credits

Grading scale

UA / Excellent (A), Very Good (B), Good (C), Satisfactory (D), Pass (E) or Fail (U)

Language of instruction

English

Decision-making body

Faculty of Technology and Society

Syllabus approval date

2021-05-28

Syllabus valid from

2021-08-30

Level

Advanced level

Entry requirements

Bachelor degree in media technology or in a related field with a minimum 180 European Credit Transfer System credits. Examples of related fields include: computer science, informatics, information systems, human-computer interaction, interaction design, media/IT management, game development, media and communication science and digital cultural studies.
English proficiency equivalent to English 6 from a Swedish upper secondary school

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Media Technology

Progression level

A1N

Progression level in relation to degree requirements

The course is part of the main area of study media technology and can be included in the degree requirements for a Degree of Master of Science in Media Technology (120 credits).

Course objectives

In the course, students advance their knowledge and understanding of qualitative and quantitative methods and methodologies for data analysis. The course focuses on the use of data and visualization techniques to analyze complex phenomena and to build models to support research or decision making related to media technology.

Course contents

qualitative and quantitative methods for data-driven analysis, such as data mining, network analysis, content analysis and digital ethnography,
processing and analysis of various forms of data,
data visualization and modelling,
statistical concepts and principles,
tools for data-driven analysis and visualization.

Learning outcomes

Knowledge and understanding

By the end of the course students should be able to:

describe applications, challenges and opportunities with different forms of data collection and analysis in digital environments,
describe how the data source and choice of method affect the possibilities for, and the quality of analysis.

Competence and abilities

By the end of the course students should be able to:

relate theoretical concepts to applied problems,
plan and perform qualitative and quantitative analyses in digital environments based on scientific and strategic objectives,
identify and apply different principles and tools for collecting, analyzing and visualizing data,
present and critically discuss data analyses and the consequences of methodological choices and conditions.

Evaluation abilities and approach

By the end of the course students should be able to:

argue for how different methods and methodologies can allow for a more complex understanding of phenomena in digital environments,
justify the choice of methodology, taking into account both concrete problems and broader scientific perspectives,
critically discuss applications of data-driven analysis with respect to ethical, integrity and social issues.

Learning activities

The course consists of lectures, seminars, workshops, laboratory and project work.

Assessment

Grading is based on oral and written examination, including active participation in seminars and project work.

The course is assessed based on the following:

Seminars (2.5 credits, UG)
Lab (2.5 credits, UA)
Written assignments (5 credits, UA)
Project (5 credits, UA)

For a pass (A-E): At least grade E on lab (2.5 credits), written assignments (5 credits) and project (5 credits) and grade G on seminar participation is required. Course grade is calculated based on the weighted average of assessed parts.

Course literature and other study material

Cairo, A. (2016). The truthful art: Data, charts, and maps for communication. New Riders.
Drucker, J. (2020). Visualization and Interpretation: Humanistic Approaches to Display. MIT Press.
Kirk, A. (2019). Data Visualization. Los Angeles: SAGE Publications. (2nd edition)
Rogers, R. (2019). Doing Digital Methods. Los Angeles: SAGE Publications.
Salganik, M. J. (2017). Bit by Bit: Social Research in the Digital Age. Princeton: Princeton University Press. (alt 2019, soft cover)

Recommended literature:

Jewitt, C. (Ed.). (2017). The Routledge handbook of multimodal analysis. New York: Routledge.
Rogers, R., Sánchez-Querubín, N., & Kil, A. (2015). Issue mapping for an ageing Europe. Amsterdam University Press
Tukey, J. W. (1977). Exploratory data analysis (Vol. 2, pp. 131-160).
Venturini, T., Munk, A., & Meunier, A. (2018). What's in a data-sprint?. Routledge Handbook of Interdisciplinary Research Methods.

Course evaluation

The University provides students who are taking or have completed a course with the opportunity to share their experiences of and opinions about the course in the form of a course evaluation that is arranged by the University. The University compiles the course evaluations and notifies the results and any decisions regarding actions brought about by the course evaluations. The results shall be kept available for the students. (HF 1:14).

Interim rules

When a course is no longer given, or the contents have been radically changed, the student has the right to re-take the examination, which will be given twice during a one year period, according to the syllabus which was valid at the time of registration.

Additional information

The syllabus is a translation of a Swedish source text.