This example shows how to use Simulink® Support Package for Raspberry Pi™ Hardware to publish the signals obtained from a Raspberry Pi Sense HAT to a WebSocket server, and read the data on a web browser in the WebSocket client.
The Raspberry Pi Sense HAT is an add-on board for Raspberry Pi hardware. It has an 8X8 RGB LED Matrix, a five-position joystick, and includes the following sensors:
IMU sensor (accelerometer, gyroscope, and magnetometer)
WebSocket is a computer communications protocol, providing full-duplex communication channels over a single TCP connection. The WebSocket protocol enables the interaction between a web browser (or other client application) and a web server with lower overheads, facilitating real-time data transfer from and to the server. Most browsers support the WebSocket protocol, including Google Chrome®, Microsoft Edge®, Internet Explorer®, Firefox®, Safari®, and Opera®.
Simulink Support Package for Raspberry Pi Hardware enables you to publish data from the sensor signals of Sense HAT to a WebSocket server in JSON format. The support package library includes a Publish block that helps you to add up to 10 signals and configure the parameters required for connecting to a WebSocket server.
In this example, you will learn how to:
Configure the signals from the different sensors on Raspberry Pi Sense HAT to make it suitable to be used as the Signal input of Websocket Publish block
Configure the different parameters of Websocket Publish block
View the data on a sample web browser dashboard in a WebSocket client
We recommend completing the Getting Started with Simulink Support Package for Raspberry Pi Hardware example.
To run this example, you need:
Raspberry Pi hardware
Raspberry Pi Sense HAT
Micro USB cable
To open the model, enter the following command at the MATLAB command prompt:
In this example model, we use four Sense HAT blocks from the Simulink library for Raspberry Pi hardware: LSM9DS1 IMU Sensor, LPS25H Pressure Sensor, HTS221 Humidity Sensor, and Joystick.
The output from these four blocks is split into ten signals and then connected to a Websocket Publish block:
The sample time of the LSM9DS1 IMU Sensor block is set to 0.01 seconds, and each of the output vectors (which correspond to the measured linear acceleration, angular velocity, and magnetic field) are connected to a subsystem that uses Buffer blocks. The Buffer blocks have the Output buffer size (per channel) parameter value set as 10. This ensures that the data samples can be plotted more accurately in a web browser in the WebSocket client.
The output signals from the LPS25H Pressure Sensor, HTS221 Humidity Sensor, and Joystick blocks are converted to a single signal using a Mux block, and this signal (a row vector) is connected to the Websocket Publish block.
1. In the raspberrypi_sensehat_dashboard model, double-click the Websocket Publish block to open the block mask. Specify the following values for the parameters:
webPub 1 : A unique Block label to identify the signal data in the WebSocket server. You can change this value, if required.
192.168.0.100 : The Server IP address of the WebSocket server to which you want to publish the signal data. In this example, we use this private IP address because we are going to access the server in a private network.
9000 : The Server port of the WebSocket server that accepts the signals from this Websocket Publish block.
2. Complete the hardware connections:
Plug the Sense HAT module into the GPIO pins of the Raspberry Pi hardware.
Connect the host computer to Raspberry Pi hardware using the micro USB cable.
3. On the Simulink model window, go to the Hardware tab and click Build, Deploy & Start.
The deployed model starts sending the signal data from the Sense HAT module to the WebSocket server in JSON format.
This task uses a web browser on the WebSocket client to read the JSON data. This example uses a local client on the host computer to read the data.
Note: The preconfigured web browser dashboard is best viewed in a Google Chrome® or Firefox® browser.
While the model is running on the hardware, change the position or orientation of the hardware or press the Joystick on the Sense HAT in different directions. The values change in the dashboard.
Customize the dashboard on the WebSocket client and view the signal data
Configure a different IP address for WebSocker Server and use the web browser on the WebSocket client to read the signal data