I-Greenhouse progress

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=Schedule of the project=

March-November 2016

 * 1st HW/SW software and hardware design of the LoRa endpoint for temperature, humidity, rain and wind (Figure 2)
 * 1st HW/SW software and hardware design of the Sigfox endpoint for temperature and humidity (Figure 3)
 * 1st HW/SW design of the LoRa pico-gateway based on ESP8266 + RN2483 (Figure 4)
 * 1st mockup of the backend based on MQTT, Node-RED and InfluxDB Link (Figure 5)
 * 1st mockup of the data-visualization application based on Grafana Link (Figure 5)

December 2016

 * Order of Adafruit Feather 32u4 RFM95 LoRa Radio on Adafruit with the USD 150 gift.

January 2017 (start of the student project)

 * Ordering of the 14 square meters greenhouse and associated material
 * Installation of the greenhouse in Polytech Grenoble backyard
 * Sigfox endpoints (with first set of sensors)

February 2017

 * Lora backend and LoRa endpoints (with first set of sensors)
 * Lora pico-gateway hardware
 * Grafana dashboard

March 2017

 * March 9-10: Participation to the Eclipse IoT Days 2017 Grenoble (lik)
 * Lora pico-gateway software
 * LoRa endpoints (with second set of sensors)
 * Sigfox endpoints (with second set of sensors)
 * Alarming backend (Email, Free SMS, Android push).

April 2017

 * Cordova mobile application
 * Integration in OpenHAB/Eclipse SmartHome
 * User documentation
 * Student defense

= Teams =

Serre aquaponique @ Polytech

 * Bonte Bastien (IESE3)
 * Michel	Faustine (IESE3)
 * Naves Neto	Paulo Rodrigues (IESE4)
 * Onorio Dos Santos	Erik Nayan (IESE4)
 * Reboullet	Dorian (MAT3)
 * Ronco	Antoine (MAT3)
 * Lejeune	Églantine (MAT4)
 * Limousin	Apolline (MAT4)

Serres @ Jardins du coteau

 * Blanchard	Charles	(IESE3)
 * Guiguitant	Théo	(IESE3)
 * Ruaux	Justin	(IESE3)
 * Derey	Corentin	(IESE4)
 * Kieger	Nicolas	(IESE4)
 * Massardier	Damien	(MAT3)
 * Raillard	Johann	(MAT3)
 * Dobies	Justine	(MAT4)
 * Guehis	Sami	(MAT4)

Irrigation @ Jardins du coteau

 * Challier	Léo	(IESE3)
 * Rosetto	Yann	IESE3)
 * Schaeffer	Guillaume	(IESE3)
 * Mougin	Louis	(IESE4)
 * Stoltz	Florian	(IESE4)
 * Balme	Loic	(MAT4)
 * Derbouze Draoua	Mamin	(MAT4)
 * Shan	Shibai	(MAT4)

= Progress report (2016 -- 2017) =

December 2016
Ordering of components on Adafruit with the USD 150 gift.
 * 3 Adafruit Feather 32u4 RFM95 LoRa Radio
 * Soil Temperature/Moisture
 * DS18B20 - Waterproof Temperature sensor
 * BMP183 SPI barometric pressure sensor
 * I2C barometric pressure and temperature sensor

January 2017

 * Reception of the components
 * Soldering of the 868MHz antenna and the pins on the Adafruit Feather




 * Follow the Hello World example at https://learn.adafruit.com/adafruit-feather-32u4-radio-with-lora-radio-module/using-the-rfm-9x-radio



digitalWrite(LED,packetnum%2);
 * The TX device is connected to a solar panel with a battery pack (3x 1.2V)
 * Use the 868Mhz frequency to match the antenna capability (Available ISM in France).
 * 1) define RF95_FREQ 868.0
 * Add the blinking LED on pin 13 on the TX device

Air Temperature and Pressure
Use of a BMP183 (SPI Barometric and temperature sensor) connected to an Arduino Uno


 * 1) BMP183 3.3v <-> Arduino 3.3v
 * 2) BMP183 GND <-> Arduino GND
 * 3) BMP183 SCK <-> Arduino 13
 * 4) BMP183 SDO <-> Arduino 12
 * 5) BMP183 SDI <-> Arduino 11
 * 6) BMP183 CS <-> Arduino 10

Configure the Arduino IDE "Arduino" -> "Preferences..." -> "Settings"

Set the "Additional Boards Manager URLs" to the following https://adafruit.github.io/arduino-board-index/package_adafruit_index.json

Install the additional librairies "Sketch" -> "Include library" -> "Manage Librairies"
 * Adafruit Unified Sensor
 * Adafruit BMP183 Unified Library

Alternative installation from ZIP
 * https://github.com/adafruit/Adafruit_Sensor
 * https://github.com/adafruit/Adafruit_BMP183_Unified_Library

Soil and Temperature Moisture

 * https://www.adafruit.com/product/1298
 * https://github.com/practicalarduino/SHT1x

Use of a SHT10 connected to an Arduino Uno


 * 1) SHT10 Red 3.3v <-> Arduino 3.3v
 * 2) SHT10 Yellow (SCK) - S0 <-> Arduino GND
 * 3) SHT10 Blue (Data) - S1 <-> Arduino 13
 * 4) SHT10 Green (GND) <-> Arduino GND

Note the pull-up resistor on the data line (Blue and White).

LoRa communication tests

 * Communication between Adafruit Feather 32u4 RFM95 LoRa Radio and Pycom LoPy cards with a sending of simulated values
 * Code for Lopy : https://github.com/igreenhouse/picoloragateway
 * Code for Adafruit : https://github.com/igreenhouse/endpoints
 * Communication between two Mbed SX1272 with a "PingPong" program
 * Getting values from sensors and monitored by Adafruit Feather card

Data processing and visualization

 * First step with Grafana and installation of a test InfluxDB, Node-Red and MQTT (By following this tutorial Developing IoT Mashups with Docker, MQTT, Node-RED, InfluxDB, Grafana)

Mock-up

 * The project will be presented at the Eclipse IoT 2017 in Grenoble with a mock-up of the greenhouse.

Farm visit

 * Feb. 8, we visited a farm localized near Grenoble where we can implant the project. There are some pictures of the day with a satellite map of the exploitation :

Greenhouse model

 * Preparation of the mockup for Eclipse IoT Days Grenoble 2017
 * Going to the FabLab in order to carve the model. The base is made of MDF (Medium-density fiberboard) and the structure is made of PMMA (aka Plexiglas).
 * The mock-up's layout is available here : https://github.com/igreenhouse/Mock-up

Demo at Eclipse IoT Days 2017

 * Demonstration with the mockup

Repositories

 * https://github.com/igreenhouse

= Progress report (2017 -- 2018) =

Summer 2017

 * Order of MyFood greenhouse
 * Order more Soil Temperature/Moisture sensors
 * Gift from ST Microelectronics:
 * Some STM32L073RZT6 boards with an SX1272MB2DAS LoRa RF expansion board,
 * Some extension boards X-NUCLEO-IKS01A2.

October 2017
3 new student groups get on board for this new year. They come from MAT (materials) and IESE (Computer Science and Electronics for Embedded Systems) and are in 3rd and 4th years.