Difference between revisions of "ASAC/SJC"

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[[File:Vue serre interieur.jpg|250px|thumb|Greenhouse viewed from inside]]
  
[[File:Vue serre interieur.jpg|250px|thumb|Greenhouse viewed from inside]]
 
[[File:Vue interieur bis.jpg|250px|thumb|Greenhouse viewed from inside]]
  
[[File:Vue interieur bis.jpg|250px|thumb|Greenhouse viewed from inside]]
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  +
This project is part of the [[ASAC]] project.
   
 
==Project==
  
==Project==
   
  +
The Connected Greenhouses project is linked to sustainable development and its finale wish is to enhance the productivity of an organic farm. The Jardins du Coteau farm need the setting up of a sensor network in order to collect data from its greenhouses. This farm is situated in Saint-Cassien, a neighbouring town of Grenoble, near Voiron. This farm being organic, the market gardening is not as easy as an industrial and high-yield farming. Without using synthesized chemicals, the condition to grow plants are even more important. Also, the water flow is favoured by the ground of the farm and so, needs a permanent monitoring. As well, crops need some condition of temperature and moisture to grow and that's why those parameters are important and needed.
In september, we choose our project for the year 2017-2018. Nine students were interested in the project. It consists in the instrumentation of a greenhouse. Vincent Hibon and his wife, both close of technology and organic market gardeners, propose us to work on their farm. During the winter and the night, they can't or they don't want to go to the greenhouses to collect the temperature and the humidity. Moreover, it's not accurate. They want a network of sensors in order to know the state of each greenhouses easily. It will surely enhance their productivity and of course, facilitate the job of farmers. They don't want to loose time anymore on useless things.
  
   
  +
At the moment, even during winter or late in the evening, they have to go to the greenhouses in order to "sense" these physical quantities. They want a network of sensors in order to know the state of each greenhouse easily. It will surely enhance their productivity and of course, facilitate the job of farmers. They don't want to lose time any more on useless things.
==Supervisors==
  
* Nicolas PALIX
  
* Benoit MARCHAND
  
* Vincent HIBON
  
   
  +
Our mission consist in equipping the greenhouses of the farm with temperature and moisture sensor. In order to simplify and centralize the reading of these data, a delivery to the house of the owner will be set up. Indeed, several boards will be placed at several places in the greenhouses and a central gateway will collect them.
==The team==
  
   
  +
Of course, some obligations that will be explained later, are brought by the project.
{|class="wikitable"
  
!scope="col"| Name
  
!scope="col"| Branch
  
|-
  
!scope="row"| Charles BLANCHARD
  
| IESE-3
  
|-
  
!scope="row"| Théo GUIGUITANT
  
| IESE-3
  
|-
  
!scope="row"| Justin RUAUX
  
| IESE-3
  
|-
  
!scope="row"| Nicolas KIEGER
  
| IESE-4
  
|-
  
!scope="row"| Corentin DEREY
  
| IESE-4
  
|-
  
!scope="row"| Damien MASSARDIER
  
| MAT-3
  
|-
  
!scope="row"| Johann RAILLARD
 
| MAT-3
  
|-
  
!scope="row"| Justine DOBIES
  
| MAT-4
  
|-
  
!scope="row"| Sami GUEHIS
  
| MAT-4
  
|-
  
|}
  
   
 
==Supervisors==
<br>
  
 
* Nicolas PALIX, Polytech
  +
* Benoit MARCHAND, ST Microelectronics (2017-2019)
  +
* Bruno STRUDEL, ST Microelectronics (2020-...)
 
* Vincent HIBON
   
 
==The teams==
Project manager : Nicolas KIEGER.
  
   
<br>
  
   
 
* [[ASAC/SJC/SJC-2017]]
We come from two different branch of Polytech Grenoble. IESE is "Informatique et Electronique des Systèmes Embarqués" which means "Computing and electronics of embedded systems" and MAT is "Matériaux" which means "Materials". We are also divided in two academic years. Some of us are in their first year in the school while others are here for 2 years already.
  
  +
* [[ASAC/SJC/SJC-2018]]
 
  +
* [[ASAC/SJC/SJC-2019]]
<br>
  
  +
* [[ASAC/SJC/SJC-2020-CO]] [[ASAC/SJC/SJC-2020-INFO]]
<br>
  
   
 
=Project=
  
=Project=
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===Explanation===
  
===Explanation===
   
  +
[[ASAC/Nomenclature_LoRa|LoRa nomenclature on the farm]]
---
  
   
 
===Material===
  
===Material===
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| [[File:Module_LoRa_I-NUCLEO-SX1272D.jpg|thumb|x150px| LoRa Plug-in I-NUCLEO-SX1272D]]
  
| [[File:Module_LoRa_I-NUCLEO-SX1272D.jpg|thumb|x150px| LoRa Plug-in I-NUCLEO-SX1272D]]
 
| [[File:Carte_d'extension_X-NUCLEO-IKS01A1.jpg‎|thumb|x150px| Extension bard X-NUCLEO-IKS01A1]]
  
| [[File:Carte_d'extension_X-NUCLEO-IKS01A1.jpg‎|thumb|x150px| Extension bard X-NUCLEO-IKS01A1]]
 
|}
  +
  +
{|style="margin: 0 auto;"
 
| [[File:Thermomètre_Humidimètre_SHT10.jpg|thumb|x150px| Thermometer / Moisture meter SHT10]]
  
| [[File:Thermomètre_Humidimètre_SHT10.jpg|thumb|x150px| Thermometer / Moisture meter SHT10]]
  +
| [[File:LoRaPC_GW.jpeg|thumb|x150px| LoRa Picocell Gateway]]
 
|}
  
|}
   
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* [http://www.st.com/content/st_com/en/products/ecosystems/stm32-open-development-environment/stm32-nucleo-expansion-boards/stm32-ode-sense-hw/x-nucleo-iks01a1.html Extension bard X-NUCLEO-IKS01A1]
  
* [http://www.st.com/content/st_com/en/products/ecosystems/stm32-open-development-environment/stm32-nucleo-expansion-boards/stm32-ode-sense-hw/x-nucleo-iks01a1.html Extension bard X-NUCLEO-IKS01A1]
 
* [https://www.adafruit.com/product/1298 Thermometer / Moisture meter SHT10]
  
* [https://www.adafruit.com/product/1298 Thermometer / Moisture meter SHT10]
  +
* [https://www.semtech.com/uploads/documents/picocell_gateway_user_guide.pdf LoRa Picocell Gateway]
   
  +
== Dashboard ==
  +
[[Image:st-cassien.iot.imag.fr.png|thumb|https://st-cassien.iot.imag.fr/]]
   
  +
[[Image:Grafana-jdc.png|x500px|Grafana]]
=Project management=
  
   
 
=Links=
==Reports==
  
   
  +
https://st-cassien.iot.imag.fr
*[[ASAC/SJC/CR1|Work session 1 - 12/10/2017]]
  
*[[ASAC/SJC/CR2|Work session 2 - 19/10/2017]]
  
*[[ASAC/SJC/CR3|Work session 3 - 26/10/2017]]
  
*[[ASAC/SJC/CR4|Work session 4 - 09/11/2017]]
  
*[[ASAC/SJC/CR5|Work session 5 - 16/11/2017]]
  
*[[ASAC/SJC/CR6|Work session 6 - 23/11/2017]]
  
*[[ASAC/SJC/CR7|Work session 7 - 30/11/2017]]
  
*[[ASAC/SJC/CR8|Work session 8 - 07/11/2017]]
  
*[[ASAC/SJC/CR9|Work session 9 - 14/11/2017]]
  
 
==Tasks division and previsional schedule==
  
 
[https://air.imag.fr/images/d/d7/Gantt_asac_sjc.xlsx#filelinks Download link of previsional schedule]
  
 
=Links=
  
   
==GitHub==
 +
== Git repository==
   
  +
https://gricad-gitlab.univ-grenoble-alpes.fr/ASAC/serres-jdc
  +
* https://gricad-gitlab.univ-grenoble-alpes.fr/Projet-RICM4/17-18/10
  +
* https://gricad-gitlab.univ-grenoble-alpes.fr/Projet-RICM4/17-18/11
  +
* https://gricad-gitlab.univ-grenoble-alpes.fr/Projet-RICM4/17-18/12
  +
* https://gricad-gitlab.univ-grenoble-alpes.fr/Projets-INFO4/18-19/5
  +
* https://gricad-gitlab.univ-grenoble-alpes.fr/Projets-INFO4/19-20/4
   
 
==Relative projects==
  
==Relative projects==

Latest revision as of 17:48, 18 January 2021


Connected Greenhouses

a project in partnership with
Polytech-Grenoble – Les Jardins du Coteau – STMicroelectronics


LogoPG.png esp Jardin du coteau.jpg esp STMicroelectronics.png


Presentation

Greenhouse viewed from outside
Greenhouse viewed from inside
Greenhouse viewed from inside

This project is part of the ASAC project.

Project

The Connected Greenhouses project is linked to sustainable development and its finale wish is to enhance the productivity of an organic farm. The Jardins du Coteau farm need the setting up of a sensor network in order to collect data from its greenhouses. This farm is situated in Saint-Cassien, a neighbouring town of Grenoble, near Voiron. This farm being organic, the market gardening is not as easy as an industrial and high-yield farming. Without using synthesized chemicals, the condition to grow plants are even more important. Also, the water flow is favoured by the ground of the farm and so, needs a permanent monitoring. As well, crops need some condition of temperature and moisture to grow and that's why those parameters are important and needed.

At the moment, even during winter or late in the evening, they have to go to the greenhouses in order to "sense" these physical quantities. They want a network of sensors in order to know the state of each greenhouse easily. It will surely enhance their productivity and of course, facilitate the job of farmers. They don't want to lose time any more on useless things.

Our mission consist in equipping the greenhouses of the farm with temperature and moisture sensor. In order to simplify and centralize the reading of these data, a delivery to the house of the owner will be set up. Indeed, several boards will be placed at several places in the greenhouses and a central gateway will collect them.

Of course, some obligations that will be explained later, are brought by the project.

Supervisors

  • Nicolas PALIX, Polytech
  • Benoit MARCHAND, ST Microelectronics (2017-2019)
  • Bruno STRUDEL, ST Microelectronics (2020-...)
  • Vincent HIBON

The teams

Project

Specifications

Download link of the specifications (FR)


Technical solutions

Explanation

LoRa nomenclature on the farm

Material

STM32 Nucleo board LR073RZ
LoRa Plug-in I-NUCLEO-SX1272D
Extension bard X-NUCLEO-IKS01A1
Thermometer / Moisture meter SHT10
LoRa Picocell Gateway

Dashboard

https://st-cassien.iot.imag.fr/

Grafana

Links

https://st-cassien.iot.imag.fr

Git repository

https://gricad-gitlab.univ-grenoble-alpes.fr/ASAC/serres-jdc

Relative projects

Previous projects

See here for more information.

Project Tracking sheet GitHub repository
Ruche connectée LoRa Sheet GitHub
Serres connectées Sheet GitHub
I-Greenhouse : Serre connectée aquaponie Sheet Full GitHub - Project's GitHub
Station de pompage connectée Sheet GitHub
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