This paper discusses the development and experimentation process of portable environment monitoring systems, which involve temperature, air pressure and detecting the presence of flammable gas. The main objective of the published works is to measure the performance of the machine to machine system for monitoring process from sensing to transmission and data storing. The system was developed based on BMP sensor, MQ-2 gas sensor, Arduino Nano, 433 MHz telemetry module kit as wireless data transmission and computer for displaying and storing the measured data. The resulted hardware circuit was placed into the box plastic size 10 cm x 7.5 cm x 3.5 cm with total weight was around 500 g so that it could be transported handy and securely. The validity test results showed that the system had 6% and 2.43% difference when measuring temperature and air pressure, respectively, in comparison to those resulted by commercial instrument. In the experiment, the developed system was able to detect the presence of flammable gas in the region of 60 cm, maximally, from the leakage point in outdoor environment. The developed system also was tested by carrying it using a drone in the park to detect the flammable gas, in which the results showed that the wireless data transmission still worked well in the range of 50 m to transmit the measurement data from the system to the computer which served as data centre. Essentially, both system and computer are able to store the measured data in *.txt file format, which could be converted into *.xlsx file format.

1.
G. R.
Sumithra
and
S.
Poornima
,
Embedded Based Temperature Monitoring System
.
International Journal of Engineering Science Invention (IJESI)
7
(
2
),
86
90
(
2018
).
2.
T.
Wellem
and
B.
Setiawan
.
International Journal of Computer Applications
53
(
1
),
7
10
(
2012
).
X.
Wang
,
International Journal of Computer, Consumer, and Control (IJ3C)
3
(
1
),
41
49
(
2014
).
Temperature and Humidity Monitoring System Based on GSM Module
3.
Y.
Ege
,
O.
Kalender
,
H.
Citak
,
S.
Nazlibilek
, and
M.
Coramik
,
Indian Journal of Pure & Applied Physics
53
(
2015
),
652
663
(
2015
).
A New Real Time Temperature Monitoring and Evaluation System
.
4.
D.
Peng
and
S.
Wan
,
Optics and Photonics Journal
3
(
2013
),
277
280
(
2013
).
Industrial Temperature Monitoring System Design Based on ZigBee and Infrared Temperature Sensing
5.
T.
Soundarya
and
J. V.
Anchitaalagammai
,
C-Leakage: Cylinder LPG Gas Leakage Detection for Home Safety
.
International Journal of Innovative Research in Science, Engineering and Technology
3
(
3
),
696
700
(
2014
).
6.
S. T.
Apeh
,
K. B.
Erameh
, and
U.
Iruansi
,
Design and Development of Kitchen Gas Leakage Detection and Automatic Gas Shut off System
Journal of Emerging Trends in Engineering and Applied Sciences (JETEAS)
5
(
3
),
222
228
(
2014
).
7.
K. R.
Katole
,
V.
Bagade
,
B.
Bangade
,
A.
Soni
, and
H.
Kamde
,
Hazardous Gas Detection using Arduino
.
International Journal of Science Technology & Engineering (IJSTE)
2
(
10
),
534
538
(
2016
).
8.
G.
Loshali
,
R.
Basera
,
L.
Darmwal
, and
S.
Varma
,
LPG Leakage Detecting and Alerting System
International Journal on Emerging Technologies (Special Issue NCETST-2017)
8
(
1
),
98
100
(
2017
).
9.
A.
Gupta
,
Economical and Optimal Gas Leakage Detection and Alert System
.
International Journal of Scientific and Research Publication
7
(
11
),
260
263
(
2017
).
10.
V.
Ramya
and
B.
Palaniappan
,
Embedded system for Hazardous Gas detection and Alerting
.
International Journal of Distributed and Parallel Systems (IJDPS)
3
(
3
),
287
300
(
2012
).
11.
R. N.
Naik
,
P. S. N.
Reddy
,
S. N.
Kishore
, and
K. T. K.
Reddy
,
Arduino Based LPG gas Monitoring & Automatic Cylinder booking with Alert System
.
IOSR Journal of Electronics and Communication Engineering (IOSR-JECE)
11
(
4
),
06
12
(
2015
).
12.
A. M.
John
,
B.
Purbia
,
A.
Sharma
, and
A. S.
Udapurkar
,
LPG/CNG Gas Leakage Detection System with GSM Module
.
International Journal of Advanced Research in Computer and Communication Engineering (IJARCCE)
6
(
5
),
536
540
(
2017
).
13.
H. H.
Yan
and
Y.
Rahayu
, “
Design and Development of Gas Leakage Monitoring System using Arduino and Zigbee
”,
Proceeding of International Conference on Electrical Engineering, Computer Science and Informatics (EECSI)
2014
,
Yogyakarta, Indonesia
, 20-21 August 2014,
207
212
(
2014
).
14.
T. H.
Mujawar
,
V. D.
Bachuwar
,
M. S.
Kasbe
,
A. D.
Shaligram
, and
L. P.
Deshmukh
,
Development of wireless sensor network system for LPG gas leakage detection system
.
International Journal of Scientific & Engineering Research
6
(
4
),
558
563
(
2015
).
15.
H.
Supriyono
and
A. N.
Hadi
, “
Designing A Wheeled Robot Model For Flammable Gas Leakage Tracking
”,
Proceedings of The Second International Conference on Informatics and Computing (ICIC)
, 1-2 November,
Aston hotel, Jayapura, Papua
(
2017
).
This content is only available via PDF.