The construction of greenhouse has not been built according to the existing climate. As a matter of fact, the expectation of meeting the quantity, quality and production continuity has not realized well or at optimum level. Thus, the efforts in improving the quality of greenhouse are necessary. One of the ways to do that is by increasing the control on the greenhouse in the matters of monitoring and controlling. The controlling in this case involves the air temperature, the air humidity, the soil moisture and the water distribution control. Therefore, through this study, a plant watering system will be created which enables it to control the air temperature, the soil moisture and the air humidity on the plants automatically. This system will be built based on IoT with Protocol of MQTT so that the system can be monitored and controlled from the distance in realtime. With the existence of IoT-based automation system with Protocol of MQTT on the plant sprinkler, it can increase the time efficiency, power and energy, as well as optimize the process of plant growth and development.

Topics
Thermal instruments, Pedology, Information technology, Telemetry
1.
K.
Ashton
, “
That internet of things” Thing
,”
RFID J.
, pp.
97
114
,
2009
.
Google Scholar
 
2.
E. D.
Meutia
, “
Internet of things – Keamanan dan privasi
,” in
Seminar Nasional dan Expo Teknik Elektro 2015
,
2015
, pp.
85
88
.
Google Scholar
 
3.
V.
Karagiannis
,
P.
Chatzimisios
,
F.
Vazquez-gallego
, and
J.
Alonso-zarate
, “
A survey on application layer protocols for the internet of things research motivation
,” vol.
3
, no.
1
, pp.
9
18
,
2015
.
Google Scholar
 
4.
G. O.
Satria
,
G. B.
Satrya
, and
A.
Herutomo
, “
Implementation MQTT protocol on SMART building based on open MTC
,” in
e-Proceeding of Engineering
,
2015
, p.
6530
.
Google Scholar
 
5.
H. A. P. and K. K.
, “
Secure-MQTT: An efficient fuzzy logic-based approach to detect DoS attack in MQTT protocol for internet of things
,”
EURASIP J. Wirel. Commun. Netw.
, vol.
2019
, no.
1
,
2019
.
6.
A.
Foster
, “
Messaging technologies for the industrial internet and the internet of things whitepaper
,”
PrismTech
, vol.
1
.
7
, pp.
1
25
,
2014
.
Google Scholar
 
7.
N.
Chen
 and
C.
Viho
, “
Passive interoperability testing for request-response protocols: Method, tool and application on CoAP protocol
,”
Lect. Notes Comput. Sci. (including Subser. Lect. Notes Artif. Intell. Lect. Notes Bioinformatics)
, vol.
7641
LNCS, pp.
87
102
,
2012
.
Google Scholar
 
8.
G. K.
Teklemariam
,
J.
Hoebeke
,
I.
Moerman
, and
P.
Demeester
, “
Facilitating the creation of iot applications through conditional observations in coap
,”
Eurasip J. Wirel. Commun. Netw.
, vol.
2013
, no.
1
, pp.
1
19
,
2013
.
https://doi.org/10.1186/1687-1499-2013-177
Google Scholar
Crossref
Search ADS
 
9.
A.
Corsaro
 and D. C., “
The data distribution service – The communication middleware fabric for scalable and extensible systems-of-systems
,”
System of System
,
2012
.
Google Scholar
 
10.
R. C.
Huacarpuma
,
R. T. De Sousa
Junior
,
M. T.
De Holanda
,
R. de O.
Albuquerque
,
L. J. G.
Villalba
, and
T. H.
Kim
, “
Distributed data service for data management in internet of things middleware
,”
Sensors (Switzerland)
, vol.
17
, no.
5
,
2017
.
Google Scholar
 
11.
P. A.
Laplante
 and
S. J.
Ovaska
,
Real-Time Systems
, Fourth Edi.
United State America
:
IEEE Press
,
2006
.
Google Scholar
 
12.
Muladi
,
Marji
,
H. W.
Herwanto
, and
S.
Hidayat
, “
Implementasi wireless sensor network untuk monitoring ruang kelas sebagai bagian dari internet of things
,”
Tekno
, vol. Vol.
22
, no.
1
, pp.
47
64
,
2014
.
Google Scholar
 
This content is only available via PDF.
© 2019 Author(s).
2019
Author(s)