This example shows how to control the brightness of the Arduino LED from an Android device.
Android phones and tablets provide wireless access and a user interface. Arduino is an open-source platform used for building electronics projects. Arduino consists of both a hardware board with a microcontroller and a software Integrated Development Environment (IDE) that runs on your computer. Using these two, you can, for example control Arduino hardware using an Android device by connecting them wirelessly.
This example provides two Simulink models,
With these models, you will:
Set up a network connection between an Android device and Arduino
Configure and run Simulink models for Android device and Arduino to remotely control the brightness of the LED on the Arduino.
Complete the Getting Started with Android™ Devices example (recommended)
Complete the Getting Started with Arduino® Hardware (Simulink Support Package for Arduino Hardware) example (recommended)
Complete the Getting started with WiFi on Arduino® Hardware (Simulink Support Package for Arduino Hardware) example (recommended)
Arduino Mega 2560/Mega ADK/Due/Leonardo/MKR1000/MKR WIFI 1010/MKR ZERO
Android device such as phone or tablet
Arduino WiFi Shield/ESP8266
You can skip this task if you are using the Arduino Mega ADK board.
In this task, you will configure the model for the supported Arduino board.
1. In your Simulink model, click Simulation > Model Configuration Parameters to open Configuration Parameters dialog.
2. Select the Hardware Implementation pane and select your required Arduino hardware from the Hardware board parameter list. Do not change any other settings.
3. Click OK.
Set up a network connection between an Android device and an Arduino. The communication protocol used in this example is TCP/IP.
1. Connect the WiFi Shield on the Arduino hardware.
For more details on connecting the Arduino to WiFi Shield, see Connect Arduino WiFi Shield to Arduino Hardware (Simulink Support Package for Arduino Hardware).
For more details on connecting the Arduino to ESP8266, refer to Connect ESP8266 to Arduino Hardware (Simulink Support Package for Arduino Hardware) in the documentation.
The Arduino MKR1000 has an on-board WiFi chip. It can be used directly without any additional WiFi hardware.
2. Open the Arduino model. To configure the network settings for the Arduino WiFi Shield, go to Configuration Parameters > Hardware Implementation > Target hardware resources > WiFi properties.
3. Specify the SSID of your WiFi network in the Service set identifier (SSID) parameter.
4. Select the WiFi encryption parameter based on your WiFi network encryption settings.
For more details on configuring the network settings for Arduino WiFi Hardware, see Configure Network Settings for WiFi (Simulink Support Package for Arduino Hardware).
5. Connect your Android device to the same WiFi network to which the Arduino is connected.
1. Open the Arduino model.
2. Click Deploy to Hardware button of Arduino model to run this model on your Arduino hardware
3. In the Diagnostic viewer, find the dynamically assigned IP address of Arduino below the memory usage information. Alternatively, a MATLAB base workspace variable with the name modelname_IPaddress is created with the value of the IP address.
4. Open the Android model.
5. Double-click on the TCP/IP Send block and change the Remote address to the IP address of the Arduino hardware.
6. Click Deploy to Hardware button of Android model to run this model on Android device.
7. In the Android device, change the Slider value on Android device to control the brightness of LED.
For more information on configuring Simulink models on Android devices and EV3 Hardware, see Run Model on Android Devices and Run Model on Arduino Hardware (Simulink Support Package for Arduino Hardware).
Replace WiFi Block in Arduino model with Ethernet block.
Connect the Arduino hardware to the electronic appliances using relays and with the help of button Block on Android, control them.
This example showed you how to
Wirelessly connecting an Android smartphone to Arduino using TCP/IP.
Remotely control the brightness of an Arduino onboard LED using the Android Slider block.