DAT076 / DIT126 Web applications
DAT076 / DIT126
Web applications LP3 VT21 (7.5 hp)
This course is offered by the department of Computer Science and Engineering. The aim of the course is to give students a broad introduction to enterprise-grade web applications such as e-commerce sites.
Schedule for the course: See bottom of page
NEW: Minutes of mid-course meeting
Sign up for final presentation time
Course syllabus at Chalmers course portal
Information about lab assignments and lab sessions
Distance Learning
These are the plans for the course based on the most recent advice given by the Folkhälsomyndigheten (see https://www.krisinformation.se/ (Links to an external site.)).
This course will be carried out entirely by distance learning.
- Lab supervision and presentations will be given by Zoom.
- Lectures will either be given live by Zoom, with recordings uploaded here afterwards; or they will be pre-recorded and uploaded to Canvas.
- A Slack workspace will be used for communication throughout the course.
- You will be given guidance on tools for collaborating on the project without being physically present.
If new guidance comes from Folkhälsomyndighten and/or Chalmers before the course starts, then this decision may change and we may switch to a mixture of off-campus and on-campus education. An announcement will be given here on Canvas and via Slack.
However, in this case it will never be necessary to come on-campus. It will be possible to complete the course entirely by distance learning.
Contact details
- Lecturer and course responsible, Robin Adams <robinad@chalmers.se>
- Adam Waldenberg <adam.waldenberg@ejwa.se>, 0708 614 628 (filled in for Robin Adams during his leave)
- Teaching assistant, Patrick Franz <patfra71@gmail.com>
- Teaching assistant, Matthías Páll Gissurarson <pallm@chalmers.se>
- Guest lecturer, Benjamin Eriksson <beneri@chalmers.se>
- Student representatives:
- Emil Holmsten <emilcarlholmsten@gmail.com>
- Daniel Karlkvist <danielkarlkvist@gmail.com>
- Ömer Sahin Keskin <sahin1121@hotmail.com>
- Tobias Mauritzon <tmauritzon@hotmail.com>
- Jacob Spilg <dendarlakritstypen@gmail.com>
- Emanuel Enberg <isakemanuel@gmail.com>
Course purpose
The aim of the course is to give students a broad introduction to enterprise-grade web applications like e-commerce sites.
The course presents a number of technologies and how they are related and used for developing web applications. The course provides a good insight to modern web based applications. Design problems related to web applications are presented - such as scaling, session handling, navigation and persistence.
Course literature
The course book is "Practical JSF in Java EE 8" by Michael Müller (ISBN: 9781484230299).
The literature in the course is a combination of the information in the book and selected additional topics as covered by the lectures.
For topics not covered by the book, students are assumed to use the Internet as a source for gathering relevant information needed to complete assignments.
For students that want to learn more in-depth about the feature set of Java Server Faces, the book "The Definitive Guide to JSF in Java EE 8" by Bauke Schultz and Arjan Tijms (ISBN: 9781484233863) is recommended as additional reading material.
Prerequisites
- Good programming skills in Java
- Knowledge in object oriented design and UML
- Basic knowledge of data structures and algorithms
- Basic knowledge of data communication and Internet protocols
- Basic knowledge in database design
Courses DAT050, DAT055, LET375, LEU061, TDA357 or equivalent. The course requires good knowledge in Java. The other prerequisites in the list makes it easier to complete the course and helps in general understanding. However, the course is laid out to allow students to be able to complete assignments and to learn and understand the topics, even if they lack some of these other prerequisites.
Organisation
You will form groups of 3-4 students and complete a group project, which should be a medium-size full stack web application with a Jakarta EE (Java EE) backend. See Project Information for more details.
The course also consists of:
- pre-recorded lectures given via Canvas
- recommended readings from the literature
- weekly "office hours" sessions with the lecturer
- four laboratory assignments to be completed in the same groups as the project
- weekly project group meetings with a supervisor
Examination
The course will be graded U, 3, 4 or 5. The laboratory assignments must be passed for the course to be completed. The grade for the course will be determined by the project grade and individually for each student based on their contribution to the project.
The supervised weekly project meetings are mandatory. If you have a lot of absence, your supervisor may decide to give you an extra assignment within the context of the group project.
Course summary:
Date | Details | Due |
---|---|---|