This example shows how to create an Android™ app to plot vector or array data on an Android device using the Array Plot block of DSP System Toolbox™ through a Simulink® model. To implement this workflow, you must install the Simulink Support Package for Android Devices.
Android devices provide a user interface to visualize signals or display data on device screen. By using Array Plot (DSP System Toolbox) block, you can display signals generated during simulation in real-time.
By displaying the Array Plot on an Android device screen, you can:
Visualize vector or array data in real-time directly on your Android device screen.
View signals without a connection to your development computer.
Customize the Array Plot style to suit your app.
This example provides two Simulink models:
dspstreamingwelch: This model displays the power spectrum estimate of a streaming time-domain input via Welch's method of averaged modified periodograms. This model runs on the development computer. For more information on this model, see Streaming Power Spectrum Estimation Using Welch's Method (DSP System Toolbox).
androidarrayplot: Showcases how the power spectrum estimate is displayed on the Android device using an Array Plot.
DSP System Toolbox
Simulink Support Package for Android Devices
USB cable to connect the device to your development computer
The Spectrum Estimator block in dspstreamingwelch model estimates the spectrum of a noisy chirp signal, sampled at 44100 Hz. The Array Plot block displays the power spectrum estimate.
1. Open the dspstreamingwelch model on your development computer.
2. Double-click the Array Plot block to open the Array Plot window.
3. On the model editor, click the Run button to see the output of the streaming power spectrum estimate.
Display the power spectrum estimate on your Android device
1. Open the androidarrayplot model.
2. Note how the Simulink Display block has been replaced with a Data Display block from the Android Support Package. This allows you to view the resolution bandwidth (RBW) on your Android Device.
3. In the Modeling tab of the toolstrip, select Model Settings.
4. Select the Hardware Implementation pane and from the Hardware board parameter list, and confirm it is set to Android Device.
5. Click Device options and ensure that the device matches your device setting. Click OK.
6. In the Hardware tab of the toolstrip, click Build, Deploy & Start to build, download, and run the model on your device. In the current working directory, a folder named "androidarrayplot_ert_rtw" contains all the model's generated project files.
The app displays the power spectrum estimate on your device.
Using the model from Task 2, configure the appearance and style of the Array Plot displayed on your Android device.
1. Open the androidarrayplot model.
2. Double-click the Array Plot block to open the Scope window.
3. In the Scope menu, click View > Style to open the Style dialog.
3. Set the Figure color to gray.
4. Modify the Axes colors. Set the Axes background color to white. Set the Ticks, labels, and grid colors to gray.
5. Set Line width to
6 and set the Line color to blue.
6. Set Plot type to Stem.
7. Click OK.
8. To see the style changes reflected in the app, you must remove the previous project. In the MATLAB Command Window, run:
9. To update these style changes on the Android device, you must re-build and download the changes by clicking on the Deploy to Hardware button on the model editor.
The Array Plot in the app reflects the new line and axes properties from the Style dialog box of the Array Plot block.
Modify the model to display signals from Android Device sensors.
Change the scope style to suit your app.