Projets-2016-2017-I-Greenhouse : Serre connectée aquaponie

Subject: I-Greenhouse : Serre connectée aquaponie

 Supervisors: 
 * Nicolas PALIX
 * Didier DONSEZ

 Students: 
 * Charles MARCHAND (RICM4)
 * Marion PELLICER (RICM4)

Subject summary
Monitor real-life greenhouses for organic and auto-production agriculture with LoRaWAN and SigFox endpoints.

Our objective being to bind this technology to the agriculture and to the greenhouses aquaponiques so that the farmer can get back data which will help him maintain his plants as well as watch his fishes in our case

Repositories

 * You can find sources of this project at : https://github.com/stractus/I-Greenhouse-Aquaponie
 * Full project (collaboration with Projets-2016-2017-Serres connectées) : https://github.com/igreenhouse

Objectives

 * Discover the project.

Work done

 * Project chose.

Problems faced

 * None so far

Objectives

 * Teamwork with Group work with the team in charge of the project on the Serres connectées being given that our two projects are very similar. I let you looking their form of follow-up if you are interested : Projets-2016-2017-Serres connectées.
 * Contact Vincent HIBBON to inquire about the technical needs for a farmer.

Work done

 * Phone meeting with Vincent HIBBON and collection of information.
 * Brainstorming about project's goal.
 * Testing our first arduino program.

Problems faced

 * Define the characteristics of the software: how many bits of information is it necessary to send according to the taken measure ?
 * Calculation of the time of emission which is allowed us + How many bits at the most ?
 * We had thought of a notification's system in case of anomaly => What used method ?

Objectives

 * Handling of the components available.
 * UML definition

Work done

 * UML Diagram


 * Communication between our two electronic cards with simple program who simulate measures taken.

Problems faced

 * Pycom firmware update doesn't work as expected.

Week 4 (January 30th - February 5th)
No time dedicated for the realisation of the project.

Objectives

 * First approach of the LoRa pico-gateway
 * Implementation of the first simple program into the pico-gateway

Work done

 * Basic function for the LoRa pico-gateway following the official website help : https://docs.pycom.io/pycom_esp32/pycom_esp32/getstarted.html
 * Visiting the farm with Vincent Hibbon, the farm owner.

Problems faced

 * Long time dedicated to the understanding of the Pymakr IDE.

Objectives

 * Retrieving data sent by Adafruit Feather 32u4 RFM95 LoRa Radio on the Pycom LoPy

Work done

 * Communication between Pycom LoPy and Adafruit Feather 32u4 RFM95 LoRa Radio with simulated values.
 * Codes are available on the repository : https://github.com/igreenhouse sections picoloragateway and endpoints.

Week 7 (February 20th - February 26th)
Pedagogic interruption.
 * We take time to follow a little bit the tutorial Developing IoT Mashups with Docker, MQTT, Node-RED, InfluxDB, Grafana.

Objectives

 * Retieving data from sensors.

Work done

 * The group in charge of the project Projets-2016-2017-Serres connectées draw a mock-up that we will exposed at the Eclipse IoT Day. More information about the event here : https://wiki.eclipse.org/Eclipse_IoT_Day_Grenoble_2017
 * The mock-up's layout is available here : https://github.com/igreenhouse/Mock-up
 * Going to the FabLab in order to carve the mock-up.

Objectives

 * End the implementation of all sensors.
 * Work on Grafana and the way to send data to the server.

Work done

 * Retrieving data from DHT11 and I2C MPL115A2.
 * Mid-project defense.
 * Eclipse IoT Day !!! https://wiki.eclipse.org/Eclipse_IoT_Day_Grenoble_2017

Objetives

 * End to the sensors.
 * Work on Grafana.
 * Participate at the Maker Faire of Grenoble 2017.

Work done

 * All sensors were implemented.
 * First step with Node-Red.
 * Maker Faire !!!

Problems faced

 * Node-Red on windows.

Objectives

 * Have a feedback with Grafana.

Work Done
We didn't do a lot. We faced some problems.

Problems faced

 * We try to make Node-Red functionnal on Windows but we faced some problems with Serial Ports.
 * Once on Linux, our connection with the LoPy didn't work very well.

Objectives

 * Ending points (end with Grafana).
 * Prepare our future presentation.

Work done

 * We prepare all documents for our presentation for next week.
 * Grafana is finally functionnal !

Problems faced

 * LoPy doesn't work very well so we decide to complete our project with 2 Adafruit Feather 32u4 RFM95 LoRa Radio.