Comparison of Communication Protocol Power Consumption of Fine-Dust IoT Sensor Based on oneM2M Standard Protocol

DOI:10.21742/IJIoTA.2020.4.1.02

AUTHORS

Seong-Se Cho,Department of Aeronautical Systems Engineering Hanseo University, 236-49, Gomseom-ro, Nam-myeon, Taean-gun, 32158 Chungcheongnam-do, Korea

Seung-Hun Kim,Department of Aeronautical Systems Engineering Hanseo University, 236-49, Gomseom-ro, Nam-myeon, Taean-gun, 32158 Chungcheongnam-do, Korea

Won-Hyuck Choi,Department of Avionics Engineering Hanseo University, 236-49, Gomseom-ro, Nam-myeon, Taean-gun, 32158 Chungcheongnam-do, Korea

ABSTRACT

As everything is connected to the Internet, the Internet of Things can communicate without user intervention. The Internet of Things has recently been used in various areas such as smart homes, smart cars, smart factories, and industrial sites. Manufacturing, Agriculture, and we built a system that communicates between client servers using the communication protocols MQTT and CoAP communication protocols with fine dust sensors in an HTTP communication protocol environment and identified the amount of power used for each communication.

KEYWORDS

One M2M, MQTT, CoAP, Standard protocol, Fine dust, IoT

REFERENCES

[1]     D. Cearley, Top 10 Strategic Technology Trends for 2016, Gartner / Symposium ITxpo 2015, October 4-8, Orlando American, (2015)
[2]     S. Y. Kim and K.Y. Kim, “Standardization of IoT,” Service Platform, vol.6, no.32, (2014)
[3]     oneM2M, oneM2M Service Layer Protocol Core Specification, oneM2M, (2014)
[4]     Milan Tucic, “Networking layer for unifying distributed smart home entities,” 22nd Telecommunications forum TELFORNovember 25-27, Belgrade, Serbia, (2014)
[5]     Thread Group, “Network architecture,” Micro Embedded Conference, (2014)
[6]     M. Prihodko, “Energy consumption in location sharing protocols for Android applications,” M.S. thesis, Linköopings University, (2012)
[7]     J. S. Myeong, “IoT Service Platform Standardization Status,” TTA Journal, vol.166, pp.25-29, (2016)
[8]     M. Dong, T. Lan, and L. Zhong, “Rethink energy accounting with cooperative game theory,” MobiCom ‘14: Proceedings of the 20th annual international conference on Mobile computing and networking, September 531-542, New York, United States, (2014)
[9]     X. Liu and F. Qian, “Poster: Measuring and Optimizing Android Smartwatch Energy Consumption,” Proceedings of the 22nd Annual International Conference on Mobile Computing and Networking, pp.421-423, (2016)
[10] Message Queuing Telemetry Transport, (2014)

CITATION

APA:
Cho,S.S.& Kim,S.H.& Choi,W.H.(2020). Comparison of Communication Protocol Power Consumption of Fine-Dust IoT Sensor Based on oneM2M Standard Protocol. International Journal of Internet of Things and its Applications, 4(1), 7-14. 10.21742/IJIoTA.2020.4.1.02
Harvard:
Cho,S.S., Kim,S.H., Choi,W.H.(2020). "Comparison of Communication Protocol Power Consumption of Fine-Dust IoT Sensor Based on oneM2M Standard Protocol". International Journal of Internet of Things and its Applications, 4(1), pp.7-14. doi:10.21742/IJIoTA.2020.4.1.02
IEEE:
[1] S.S.Cho, S.H.Kim, W.H.Choi, "Comparison of Communication Protocol Power Consumption of Fine-Dust IoT Sensor Based on oneM2M Standard Protocol". International Journal of Internet of Things and its Applications, vol.4, no.1, pp.7-14, Mar. 2020
MLA:
Cho Seong-Se, Kim Seung-Hun and Choi Won-Hyuck. "Comparison of Communication Protocol Power Consumption of Fine-Dust IoT Sensor Based on oneM2M Standard Protocol". International Journal of Internet of Things and its Applications, vol.4, no.1, Mar. 2020, pp.7-14, doi:10.21742/IJIoTA.2020.4.1.02