The technological advances have allowed to create new applications in telecommunications, applying low power and reduced costs in their equipment, thus achieving the evolution of new wireless networks or also denominated Wireless Sensor Network. These technologies allow the generation of measurements and analysis of environmental parameter data and soil. Precision agriculture requires parameters for the improvement of production, obtained through WSN technologies. This research analyzes the climatic requirements and soil parameters in a rose plantation in a greenhouse at an altitude of 3,100 meters above sea level. In the present investigation, maximum parameters were obtained in the production of roses, which are in the optimum range of production, whereas the minimum parameters of temperature, humidity and luminosity, evidenced that these parameters can damage the plants, since temperatures less than 10 °C slow down the growth of the plant and allow the proliferation of diseases and fungi.

1.
Tanenbaum
,
A. S.
,
Redes de computadoras
, 4ta ed.
Pearson Educación
,
2003
.
2.
Sosa
,
E. O.
Evolución Tecnológica e Internet del Futuro
”. In
XIV Workshop de Investigadores en Ciencias de la Computación
, pp
26
30
,
2012
.
3.
Guaña-Moya
,
J.
, &
Escuntar
,
V.
, “
Aplicaciones Inalámbricas utilizando Tecnologías Wireless Sensor Network (WSN)
”, 1era ed.
2016
.
4.
Akyildiz
,
I. F.
,
Su
,
W.
,
Sankarasubramaniam
,
Y.
, &
Cayirci
,
E.
A survey on sensor networks
”.
Communications magazine, IEEE
, vol.
40
, no.
8
, pp.
102
114
,
2002
.
5.
Keshtgari
,
M.
, &
Deljoo
,
A.
A wireless sensor network solution for precision agriculture based on zigbee technology
”.
Wireless Sensor Network
, vol.
4
, no.
1
, pp.
25
,
2012
.
6.
Baronti
,
P.
,
Pillai
,
P.
,
Chook
,
V. W.
,
Chessa
,
S.
,
Gotta
,
A.
, &
Hu
,
Y. F.
Wireless sensor networks: A survey on the state of the art and the 802.15. 4 and Zig Bee standards
”.
Computer communications
, vol.
30
, no.
7
, pp.
1655
1695
,
2007
.
7.
Moya
,
G.
, &
Javier
,
E.
Diseño de una Red de Sensores Inalámbricos (WSN) para monitorear parámetros relacionados con la agricultura
”. M.S. Thesis, Escuela Politécnica Nacional, Quito, Ecuador,
2016
.
8.
Steere
,
D. C.
,
Baptista
,
A.
,
McNamee
,
D.
,
Pu
,
C.
, &
Walpole
,
J.
Research challenges in environmental observation and forecasting systems
”. In
6ᵗʰ Annual international conference on Mobile computing and networking
,
Boston
,
Massachusetts, USA
,
2000
, pp.
292
299
.
9.
Li
,
C.
,
Li
,
H. B.
, &
Kohno
,
R.
Performance evaluation of IEEE 802.15. 4 for wireless body area network (WBAN
)”. In
3th Communications Workshops, ICC Workshops
,
IEEE International Conference
,
2009
, pp.
1
5
.
10.
Srivastava
,
M.
,
Muntz
,
R.
, &
Potkonjak
,
M.
Smart kindergarten: sensor-based wireless networks for smart developmental problem-solving environments
”, in
7th annual international conference on Mobile computing and networking
,
New York, USA
,
2001
, pp.
132
138
.
11.
Barciela
,
F.
Sensores inalámbricos urbi et orbi: Libelium exporta su plataforma Waspmote, que conecta los objetos con internet, a 75 países y factura 2.2 millones de euros en un sector en expansión
”,
Emprendedores: las claves de la economía y el éxito profesional
, no.
196
, pp.
38
40
,
2014
.
12.
Libelium
.
Sensors to the Cloud
,
2012
, [Online]. Available: http://www.libelium.com/products/meshlium/wsn/, Accessed on: December, 20, 2016.
13.
Castillejo
Erviti
,
Mikel
. “
Agricultura de precisión mediante redes inalámbricas de sensores
” Tesis de Master Universitario en Tecnologías Informáticas, Universidad Pública de Navarra, pp.
75
,
2013
.
14.
KESHTGARI
,
Manijeh
;
DELJOO
,
Amene
. “
A wireless sensor network solution for precision agriculture based on zigbee technology
”,
Wireless Sensor Network
, vol.
4
, no
1
, p.
25
,
2012
.
15.
Liaghat
,
S.
, &
Balasundram
,
S. K.
A review: “The role of remote sensing in precision agriculture
”.
American journal of agricultural and biological sciences
, vol.
5
, no.
1
, pp.
50
55
,
2010
.
16.
Lin
,
M.
,
Kumar
,
A.
,
Qing
,
X.
,
Beard
,
S. J.
,
Russell
,
S. S.
,
Walker
,
J. L.
, &
Delay
,
T. K.
Monitoring the integrity of filament-wound structures using built-in sensor networks
”. In
Smart Structures and Materials, International Society for Optics and Photonics
,
2003
, pp.
222
229
.
This content is only available via PDF.
You do not currently have access to this content.