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MQTT and CayenneExercise 1: | ||||||||
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Write you own MQTT client in Python publishing a message to “DCSIT” every 2 s. | ||||||||
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Write an MQTT client that subscribes to the “DCSIT” topic and that prints messages coming in. | ||||||||
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< < | Write a program controlling a LED as we did during the lectures.
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> > | Write a program controlling a LED. Use messages “LED on” and “LED off” to control the LED.
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Register a user on https://mydevices.com/cayenne/signup. Watch the introductory film and have a look at the documentation pages. Add a device by clicking on “Bring Your Own Thing”. Have a look at your Cayenne credentials. | ||||||||
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Write a program connecting to Cayenne. Observe that the dashboard is coming up. | ||||||||
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< < | Write a program that sends a dummy voltage value to Cayenne on channel 0. The voltage values should range from 0 to 3300 mV (the voltages on the ESP8266). Wait for 2 s minimum between each value. | |||||||
> > | Write a program that sends dummy temperature values to Cayenne on channel 0. The temperature values should range from 0 to 50°C . Wait for 2 s minimum between each value. | |||||||
Observe the widget coming up on the dashboard. Fix the widget on the dashboard and change the widget parameters (e.g. the name). | ||||||||
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< < | Add a gauge widget with ranges 0 .. 1V, 1V .. 2V, 2V .. 3.3V. Run your program sending the dummy voltages and observe how the dashboard displays them.
Exercise 7:Add a dummy measurement on atmospheric pressure to your program. The normal air pressure is around 950 hPa (hecto Pascal).Exercises 8: | |||||||
> > | Add a gauge widget with ranges 0 .. 50 °C. Run your program sending the dummy temperatures and observe how the dashboard displays them.
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Create a slider and a push button on your dashboard. | ||||||||
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> > | Exercise 8:Create a temperature and a humidity widget on the Cayenne dashboard. Write a program that connects to Cayenne and sends temperature and humidity values read from the SHT30 to Cayenne every 5s. Observe the measurements on the dash board. Add two line charts for temperature and humidity and observe how the plots evolve over time. You may also try to download the measurements saved on the plots.Exercise 9:Add a push button to the dashboard and connect it to the built-in LED on the ESP32 CPU board. Try to switch the LED on and off using this button. The dashboard should now look like this: As you can see, the LED is currently switched onExercise 10:Create 4 sliders on the dashboard. The first one will select one of the 7 LEDs on the WS2812 RGB LED chain while the other 3 will select the red, green and blue component for the LED selected.Exercise 11:Connect the GPS receiver to the ESP32 and send GPS position information to Cayenne. | |||||||
-- Uli Raich - 2020-09-02
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MQTT and CayenneExercise 1:Install mosquitto on your machine. On Ubuntu Linux this can very easily be accomplished with apt. Try the mosquitto communication:
Exercise 2:Write you own MQTT client in Python publishing a message to “DCSIT” every 2 s. Have a look at the umqtt.simple class to see how to accomplish this. Write the program and start it with thonny. You must know the IP address of the machine on which your mosquitto broker is running. Use ifconfig to find out. Subscribe to the “DCSIT” topic with mosquitto_sub and observer that the messages are arriving. Write an MQTT client that subscribes to the “DCSIT” topic and that prints messages coming in. Write a program controlling a LED as we did during the lectures.Exercise 3:Register a user on https://mydevices.com/cayenne/signup. Watch the introductory film and have a look at the documentation pages. Add a device by clicking on “Bring Your Own Thing”. Have a look at your Cayenne credentials.Exercise 4:Write a program connecting to Cayenne. Observe that the dashboard is coming up.Exercise 5:Write a program that sends a dummy voltage value to Cayenne on channel 0. The voltage values should range from 0 to 3300 mV (the voltages on the ESP8266). Wait for 2 s minimum between each value. Observe the widget coming up on the dashboard. Fix the widget on the dashboard and change the widget parameters (e.g. the name).Exercise 6:Add a gauge widget with ranges 0 .. 1V, 1V .. 2V, 2V .. 3.3V. Run your program sending the dummy voltages and observe how the dashboard displays them.Exercise 7:Add a dummy measurement on atmospheric pressure to your program. The normal air pressure is around 950 hPa (hecto Pascal).Exercises 8:Create a slider and a push button on your dashboard. -- Uli Raich - 2020-09-02Comments |