The Bird's-Eye Scope visualizes signals from your Simulink® model that represent aspects of a driving scenario. Using the scope, you can analyze:
Sensor coverages of vision and radar sensors
Sensor detections of actors and lane boundaries
Tracks of moving objects in the scenario
This example shows you how to display these signals on the scope and analyze the signals during simulation.
Open a model containing signals for sensor detections and tracks. This model is used in the Sensor Fusion Using Synthetic Radar and Vision Data in Simulink example. Also add the file folder of the model to the MATLAB® search path.
Open the scope from the Simulink toolstrip. Under Review Results, click Bird's-Eye Scope.
When you first open the Bird's-Eye Scope, the scope canvas is blank and displays no signals. To find signals from the opened model that the scope can display, on the scope toolstrip, click Find Signals. The scope updates the block diagram and automatically finds the signals in the model.
The left pane lists all the signals that the scope found. These signals are grouped based on their sources within the model.
|Signal Group||Description||Signal Sources|
Road boundaries, lane markings, and actors in the scenario, including the ego vehicle
You cannot modify this group or any of the signals within it.
To inspect large road networks or to view actors that are located away from the ego vehicle, use the World Coordinates View window. See Vehicle and World Coordinate Views.
Coverage areas of your vision and radar sensors, sorted into Vision and Radar subgroups
You can move or modify these subgroups and their signals. You cannot move or modify the top-level Sensor Coverage group.
Detections obtained from your vision and radar sensors, sorted into Vision and Radar subgroups
You can move or modify these subgroups and their signals. You cannot move or modify the top-level Detections group.
Tracks of objects in the scenario
|Other Applicable Signals|
Signals that the scope cannot automatically group, such as ones that combine information from multiple sensors
Signals in this group do not display during simulation.
Before simulation but after clicking Find Signals, the scope canvas displays all Ground Truth signals except for non-ego actors and all Sensor Coverage signals. The non-ego actors and the signals under Detections and Tracks do not display until you simulate the model. The signals in Other Applicable Signals do not display during simulation. If you want the scope to display specific signals, move them into the appropriate group before simulation. If an appropriate group does not exist, create one.
Simulate the model from within the Bird's-Eye Scope by clicking Run. The scope canvas displays the detections and tracks. To display the legend, on the scope toolstrip, click Legend.
During simulation, you can perform these actions:
Inspect detections, tracks, sensor coverage areas, and ego vehicle behavior. The default view displays the simulation in vehicle coordinates and is centered on the ego vehicle. To view the wider area around the ego vehicle, or to view other parts of the scenario, on the scope toolstrip, click World Coordinates. The World Coordinates View window displays the entire scenario, with the ego vehicle circled. This circle is not a sensor coverage area. To return to the default display of either window, move your pointer over the window, and in the upper-right corner, click the home button that appears. For more details on these views, see Vehicle and World Coordinate Views.
Update signal properties. To access the properties of a signal, first select the signal from the left pane. Then, on the scope toolstrip, click Properties. Using these properties, you can, for example, show or hide sensor coverage areas or detections. In addition, to highlight certain sensor coverage areas, you can change their color or transparency.
Update Bird's-Eye Scope settings, such as changing the axes limits of the Vehicle Coordinates View window or changing the display of signal names. On the scope toolstrip, click Settings. You cannot change the Track position selector and Track velocity selector settings during simulation. For more details, see the Settings section of the Bird's-Eye Scope reference page.
After simulation, you can hide certain detections or tracks for the next simulation. In the left pane, under Detections or Tracks, right-click the signal you want to hide. Then, select Move to Other Applicable to move that signal into the Other Applicable Signals group. To hide sensor coverage areas, select the corresponding signal in the left pane, and on the Properties tab, clear the Show Sensor Coverage parameter. You cannot hide Ground Truth signals during simulation.
To further organize the signals, you can rename signal groups or move signals into new groups. For example, you can rename the Vision and Radar subgroups to Front of Car and Back of Car. Then you can drag the signals as needed to move them into the appropriate groups based on the new group names. When you drag a signal to a new group, the color of the signal changes to match the color assigned to its group.
You cannot delete or modify the top-level groups in the left pane, but you can modify or delete any subgroup. If you delete a subgroup, its signals are moved automatically to the group that contained that subgroup.
After you run the simulation, modify the model and inspect how the changes affect the
visualization on the Bird's-Eye Scope. For example, in the Sensor
Simulation subsystem of the model, open the two Vision Detection
Generator blocks. These blocks have sensor indices of
2, respectively. On the
Measurements tab of each block, reduce the Maximum
detection range (m) parameter to
50. To see how
the sensor coverage changes, rerun the simulation.
When you modify block parameters, you can rerun the simulation without having to find signals again. If you add or remove blocks, ports, or signal lines, then you must click Find Signals again before rerunning the simulation.
Save and close the model. The settings for the Bird's-Eye Scope are also saved.
If you reopen the model and the Bird's-Eye Scope, the scope canvas is initially blank.
Click Find Signals to find the signals again and view the saved signal properties. For example, if you reduced the detection range in the previous step, the scope canvas displays this reduced range.
When you are simulating the model, remove the model file folder from the MATLAB search path.