2. Objective:
Instead of monitoring the garden manually , we are
using dashboard to monitor and control the garden.
Information regarding garden is processed through
Arduino and uploaded to cloud using ESP module.
we ensure automatic gardening using circuit
environmental sensing garden.
3. Exsisting and proposed system:
They have displayed a collected data in the web
application,created using HTML
Whereas in this system,the data will be displayed in
the dashboard with the help of adafruit.io
5. Components and supplies:
Arduino UNO
Everything ESP(8266-12E)
Soil moisture
DHT11
Relay
LDR
Mini water pump(DC Motor)
Power Supply.
6. Soil moisture sensor:(module 1)
Measure the volumetric water
content in soil with the help
of a sensing probe which
must be put into the soil.
Since the direct gravimetric
measurement of free soil
moisture requires removing,
drying, and weighting of a
sample.
Electric resistance, dielectic
constant or interaction with
neutrons as a proxy for the
moisture content.
9. LDR sensor (module 3):
Light Dependened Resistor
It is mainly used to sense the
absence and presence of light.
LDR is a component that has
a (variable )resistance that
changes with the light
intensity that falls on it.
11. Advantages:
An automatic gardening system refers to garden where
all aspects of gardening are automated.
Here the informtion regarding
(temp,humidity,moisture)are processed through
Arduino and uploaded to cloud using ESP module.
12. REFERENCES
[1] Amundsen, R. N. (2013). ”Urban farming: Victory gardens for sustain-
able communities”. 2013 Energy and Sustainability Conference, IESC
2013, 2–4.
[2] Zambrano Mart ́ınez, M. B. Video documental sobre la promocion de ́
soberan ́ıa alimentaria, a traves de programas de agricultura urbana. ́
Tesis de Licenciatura en Comunicacion Social, Universidad Polit ́ ecnica ́
Salesiana, 2016.
[3] Bohrt, J. P. ”Agricultura urbana en America Latina. Evaluaci ́ on in situ ́
para iniciativa regional”, v.13, pag 1-34, 1994.
[4] Curay, M. & Tituana, M. ”Agroecolog ̃ ́ıa y Turismo en los huertos
urbanos del Distrito Metropolitano de Quito. Caso AGRUPAR”, Tesis
de maestr ́ıa, Universidad Politecnica Salesiana, Quito, 2015. ́
[5] Reba ̈ı, N. de Mexico, U. N. A. (Ed.) ”Del huerto a la ciudad: Agricultura ́
Familiar y Aprovisionamiento urbano en la Sierra ecuatoriana”, Revista
Pueblos y Fronteras Digital, Revista Pueblos y Fronteras Digital, 2013,
7, 31-47.
[6] Yumang, A. N.; Paglinawan, A. C.; Perez, L. A. A.; Fidelino, J. F. F.
& Santos, J. B. C. Soil infiltration rate as a parameter for soil moisture
and temperature based Irrigation System. 2016 6th IEEE International
Conference on Control System, Computing and Engineering