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Use-case Diagrams

Use-case diagrams are used to show which actors within a domain can perform what actions. The diagram contains all of the actors on the left-hand side, the system in a central box and any external actors that do not perform any user actions on the right-hand side. All actions that the actors perform are inside the central box and have a line to either crewmember or viewer to represent who can perform that specific user action.

Use case diagram

The use-case diagram for Regterschotracing looks like this, with the viewer and crewmember that were mentioned in the domain model now acting as actors that interact with our system. A viewer can watch a race and enjoy the enticing race from the comfort of their own couch. A crewmember has to analyse the data from the racecar in graphs that are placed in tabs whilst watching a race, so there's two distinct user-actions that solely crewmembers can perform. Furthermore, the graphs that are used by a crewmember connect to an external actor, the broker. This is a service that can send a long stream of data to our application without requiring constant requests for fetching said data.

The <<CRUD>> and <<CRD>> indicate that this particular use-case is a collection of multiple use-case that closely relate to one another.

Figure 2: Use-case diagram

Use case diagram Tabs CRUD

The <<CRUD>> and <<CRD>> would look like the diagram below when expanded. The CRUD acronym stands for Create, Read, Update & Delete. This simple collectivisation shows that an actor can interact with a certain use-case, in this case a tab. They can add new tabs, they can read the data that is present within the tabs, they can update the tab by adding new graphs or removing graphs and they can delete tabs by removing them from the view.

Figure 3: Tab <<CRUD>> use-case diagram

Figure 4: Graph <<CRD>> use-case diagram

Use Case Descriptions

In this chapter, all of the use-cases in the use-case diagram will be expanded and explained, adding a primary actor, potential stakeholders, a brief description, pre- and postconditions as well as a main success path and any potential alternative paths to successfully complete the use-case. Next to this overview of the use-case, an SSD or System Sequence Diagram has been added, which shows the user actions as well as the system's responses to these user actions.

View race

Fully dressed description

Primary Actor: User.
Stakeholders & Interests: 

Brief Description: An actor wants to see a list of old races so he can choose one to watch back.

Preconditions: The actor has logged in to the website.
Postconditions: There is a list of all the races that happened.
Main success scenario (basic flow):
Actor ActionSystem Responsibility

1. The user goes to the race-overview page.


2. The system will get all the races from the database and show them on the page.


Extensions (alternative flow):


Table 2: View race fully dressed format.

System sequence diagram

Figure 5: System sequence diagram view race.

 View specific round(s)

Fully dressed description

Primary Actor: Crewmember.
Stakeholders & Interests: 

Brief Description: A crewmember wants to view the data of a specific round during the current race, to analyse that specific round and see if there's anything wrong with the car or the driver.

Preconditions: The crewmember has logged in on the website and is watching a race.
Postconditions: The crewmember can now view the data of one or more specific rounds.
Main success scenario (basic flow):
Actor ActionSystem Responsibility

1. A crewmember analyses the data of a specific round.

3. The crewmember inserts the desired rounds to view.

2. The system requests the crewmember to insert the range of rounds they want to view.

4. The system creates a new tab with only the desired rounds as data that can be viewed.

Extensions (alternative flow):


Table 3: View specific round(s) fully dressed format.

System sequence diagram

Figure 6: System sequence diagram view data per round.

View Graphs

Fully dressed description

Primary Actor: Crewmember.
Stakeholders & Interests

Brief Description: A crewmember wants to look at racedata or wants to view detailed information of a race.

Preconditions: A crewmember has logged in to the web application and has selected a race.
Postconditions: A crewmember can now view and interact with the race and/or the racecar's data.
Main success scenario (basic flow):
Actor ActionSystem Responsibility

1. Crewmember reads data from a graph.

2. The system provides the graph with newly received data.


Extensions (alternative flow):


Table 4: View graphs fully dressed format.

System sequence diagram

Figure 7: System sequence diagram view graphs.

Tab CRUD

Create Tab

Fully dressed description

Primary Actor: Crewmember.
Stakeholders & Interests: 

Brief Description: A crewmember wants to create a new tab.

Preconditions: A crewmember has logged in to the web application and is on the dashboard page of a race

Postconditions: The crewmember can see their new created tab.
Main success scenario (basic flow): 
Actor ActionSystem Responsibility

1. The crewmember creates a new tab.


3. The crewmember supplies the system with a tab name.



2. System asks for a tab name.


4. System validates if supplied tab name is correct.

5. System adds the new tab.

Extensions (alternative flow):


Table 5: Create tab fully dressed format.

System sequence diagram

Figure 8: system sequence diagram create tabs.

Update Tab

Fully dressed description

Primary Actor: Crewmember.
Stakeholders & Interests: 

Brief Description: A crewmember wants to update an existing tab.

Preconditions: A crewmember has logged in to the web application and the crewmember needs to have a tab
Postconditions: The crewmember can see their updated tab.
Main success scenario (basic flow): 
Actor ActionSystem Responsibility

1. The crewmember updates a tab.


3. The crewmember supplies the system with a tab name.



2. System asks for a new tab name.


4. System validates if the supplied tab name is correct.

5. System updates the tab name.

Extensions (alternative flow):




Table 6: Update tab fully dressed format.

System sequence diagram

Figure 9: System sequence diagram update tab.

Read Tab

Fully dressed description

Primary Actor: Crewmember.
Stakeholders & Interests: 

Brief Description: A crewmember wants to read an existing tab.

Preconditions: A crewmember has logged in to the web application and the crewmember needs to have a tab.
Postconditions: The crewmember can see their tab.
Main success scenario (basic flow): 
Actor ActionSystem Responsibility

1. The crewmember reads a tab.



2. System shows details of given tab.

Extensions (alternative flow):




Table 7: Read tab fully dressed format.

This use-case has no system sequence diagram, as there's nothing for the system to handle when a crewmember is continuously reading data. 

Delete Tab

Fully dressed description

Primary Actor: Crewmember.
Stakeholders & Interests: 

Brief Description: A crewmember wants to delete an existing tab.

Preconditions: A crewmember has logged in to the web application and the crewmember needs to have a tab.
Postconditions: The crewmember has deleted their tab.
Main success scenario (basic flow): 
Actor ActionSystem Responsibility

1. The crewmember deletes a tab.


3. The crewmember confirms deletion.



2. System asks for a confirmation.

4. System deletes the tab.

Extensions (alternative flow):




Table 8: Delete tab fully dressed format.

System sequence diagram

Figure 10: System sequence diagram delete tab.

Place Graph

Fully dressed description

Primary Actor: Crewmember.
Stakeholders & Interests: 

Brief Description: A crewmember wants to view the data from the sensors in a graph, to do this they place their desired graph in their tab.

Preconditions: A crewmember has logged in to the web application and has at least one tab.
Postconditions: The crewmember can see the newly placed graphs.
Main success scenario (basic flow): 
Actor ActionSystem Responsibility

1. The crewmember heads to the list of all available sensors that have graphs.


3. The crewmember selects the desired sensor to add a graph for.


5. The crewmember selects the desired type of graph to add to the tab.


2. System shows all sensors to choose a graph from.


4. System shows all graphs that are included in the current selection.


6. System adds the graph to the tab.

Extensions (alternative flow):

2a. There are no sensors available in the database.
      end of usecase.

4a. There are no graphs available that are linked with the shown sensors.
      end of usecase.

Table 9: Place graph fully dressed format.

System sequence diagram

Figure 10: System sequence diagram place graph

Remove Graph

Fully dressed description

Primary Actor: Crewmember.
Stakeholders & Interests: 

Brief Description: A crewmember wants to delete a graph from a tab because he doesn't need it anymore. 

Preconditions: A crewmember has logged in to the web application and selected a tab to remove a graph from.
Postconditions: The crewmember has successfully removed a graph from his tab.
Main success scenario (basic flow): 
Actor ActionSystem Responsibility

1. The crewmember removes a graph.


2. System removes the graph from the selected tab.

Extensions (alternative flow):


Table 10: Remove graph fully dressed format.

System sequence diagram

Figure 11: System sequence diagram remove graph.

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