The development of cybernetics and mechatronics, which blended with the Internet of Things (IoT), led to the introduction of Cyber-Physical Systems (CPS) using IoT devices and protocols in the automotive industry. This paper describes the use of MQTT protocol in the development of a CPS architectural model based on a common IoT layered architecture as a template. For each layer, appropriate technologies are designated, most notably LoRa, MQTT, and dash. LoRa is used to enable physical device communication, whereas MQTT is used for data exchange with an application server. Dash is a framework for developing web-based applications. As a result, the system was put through tests in remote controlling a manual transmission car over a cloud server, which demonstrated the reliability of the MQTT data exchange in the network of LoRa communication and the connection to the user interface.

Topics
Dynamometers, Information technology, Internet of things, Cybernetics, Electromechanics, Telemetry, User interfaces, Industry
1.
Sidik
M. M.
 and
Ghani
S. C.
International Journal of Applied Engineering Research
12
14505
9
(
2017
).
Google Scholar
 
2.
Ghadge
A
,
Mogale
D. G.
,
Bourlakis
M
,
Maiyar
L. M.
 and
Moradlou
H.
Computers & Industrial Engineering
108303
(
2022
).
https://doi.org/10.1016/j.cie.2022.108303
Google Scholar
 
3.
Allgöwer
F
,
de Sousa
J. B.
,
Kapinski
J
,
Mosterman
P
,
Oehlerking
J
,
Panciatici
P
,
Prandini
M
,
Rajhans
A
,
Tabuada
P.
 and
Wenzelburger
P.
Nonlinear Analysis: Hybrid Systems
34
147
65
(
2019
).
Google Scholar
 
4.
Vogt
A
,
Müller
R. K.
,
Kampa
T
,
Stark
R
 and
Großmann
D
Procedia CIRP
104
1292
7
(
2021
).
https://doi.org/10.1016/j.procir.2021.11.217
Google Scholar
Crossref
Search ADS
 
5.
Liu
X
,
Zhang
T
,
Hu
N
,
Zhang
P
 and
Zhang
Y.
Computer Communications
153
169
76
(
2020
).
https://doi.org/10.1016/j.comcom.2020.01.044
Google Scholar
Crossref
Search ADS
 
6.
Mukherjee
A
,
Dey
N
 and
De
D.
Computer Communications
152
93
108
(
2020
).
https://doi.org/10.1016/j.comcom.2020.01.039
Google Scholar
Crossref
Search ADS
 
7.
Kegenbekov
Z.
 and
Saparova
A.
Transportation Research Procedia
61
410
7
(
2022
).
https://doi.org/10.1016/j.trpro.2022.01.067
Google Scholar
Crossref
Search ADS
 
8.
Rozy
N
,
Sazali
N
,
Ghani
S. A. C.
 and
Kettner
M.
Journal of Advanced Research in Fluid Mechanics and Thermal Sciences
84
1
10
(
2021
).
https://doi.org/10.37934/arfmts.84.1.110
Google Scholar
Crossref
Search ADS
 
9.
Denenberg
R.
Library hi tech
(
1985
).
Google Scholar
 
10.
Zimmermann
H.
IEEE Transactions on communications
28
425
32
(
1980
).
https://doi.org/10.1109/TCOM.1980.1094702
Google Scholar
Crossref
Search ADS
 
11.
D’Amico
R. D.
,
Erkoyuncu
J. A.
,
Addepalli
S.
 and
Penver
S.
CIRP Journal of Manufacturing Science and Technology
38
613
30
(
2022
).
https://doi.org/10.1016/j.cirpj.2022.06.004
Google Scholar
Crossref
Search ADS
 
12.
Hofer-Schmitz
K.
 and
Stojanović
B.
Computer Networks
174
107233
(
2020
).
https://doi.org/10.1016/j.comnet.2020.107233
Google Scholar
Crossref
Search ADS
 
13.
Shilpa
V
,
Vidya
A.
 and
Pattar
S.
Global Transitions Proceedings
(
2022
).
Google Scholar
 
14.
Ghani
S. A. C.
,
Kettner
M
,
Aslan
F
,
Dzharuddin
F.
 and
Sazali
N.
 In:
IOP Conference Series: Materials Science and Engineering
:
IOP Publishing
,
2021
) p
012022
.
Google Scholar
 
15.
Vazquez-Rodas
A
,
Astudillo-Salinas
F
,
Sanchez
C
,
Arpi
B
 and
Minchala
L. I.
Ad Hoc Networks
105
102168
(
2020
).
https://doi.org/10.1016/j.adhoc.2020.102168
Google Scholar
Crossref
Search ADS
 
16.
Anzum
R.
Procedia Computer Science
194
149
55
(
2021
).
https://doi.org/10.1016/j.procs.2021.10.068
Google Scholar
Crossref
Search ADS
 
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