Análise Experimental do Impacto da Transmissão de Dados via Wifi na Eficiência Energética de Dispositivos IoT
Abstract
Recently, the Internet of Things (IoT) emerged to evolve tasks and services in daily activities of the society, demanding more robust wireless transmissions, such as IEEE 802.11/WiFi. However, there is still no study about the impact of this technology on the battery life of IoT devices, considering the size of the transmitted packets and the Maximum Transmission Unit (MTU) defined. Within this context, this paper presents an experimental analysis of the impact of data transmission through IEEE 802.11/WiFi on the energy efficiency of IoT devices. Experiments were carried out in a testbed composed of ESP8266X/WEMOS devices, showing that both the packet size and the defined MTU influence the energy consumption of the devices.
Keywords:
Internet das Coisas, Consumo de Energia, Microcontroladores
References
Akintade, O. O., Yesufu, T. K., Kehinde, L. O., et al. (2019). Development of powerconsumption models for esp8266-enabled low-cost iot monitoring nodes. Advances inInternet of Things, 9(01):1.
Datasheet, E. (2015). Esp8266ex datasheet. Espressif Systems Datasheet, pages 1-31.
Kanakaris, V., Papakostas, G., and Bandekas, D. (2019). Power consumption analysis onan iot network based on wemos: a case study. Telkomnika, 17(5):2505-2511.
Li, Z., Liu, Y., Liu, A., Wang, S., and Liu, H. (2018). Minimizing convergecast timeand energy consumption in green internet of things. IEEE Transactions on EmergingTopics in Computing.
Mesquita, J., Guimarães, D., Pereira, C., Santos, F., and Almeida, L. (2018). Assessingthe esp8266 wifi module for the internet of things. In 2018 IEEE 23rd InternationalConference on Emerging Technologies and Factory Automation (ETFA), volume 1,pages 784-791.
Sharma, P. K., Jeong, Y., and Park, J. H. (2018). Eh-hl: Effective communication modelby integrated eh-wsn and hybrid lifi/wifi for iot. TEEE Internet of Things Journal,5(3):1719-1726.
Siu, C. (2018). JoT and Low-Power Wireless: Circuits, Architectures, and Techniques.CRC Press.
Talebi, M., Papatsimpa, C., and Linnartz, J.-P. M. (2018). Dynamic performance analysisof ieee 802.15. 4 networks under intermittent wi-fi interference. In 2018 IEEE 29th Annual International Symposium on Personal, Indoor and Mobile Radio Communica-tions (PIMRC), pages 1-7. IEEE.
Datasheet, E. (2015). Esp8266ex datasheet. Espressif Systems Datasheet, pages 1-31.
Kanakaris, V., Papakostas, G., and Bandekas, D. (2019). Power consumption analysis onan iot network based on wemos: a case study. Telkomnika, 17(5):2505-2511.
Li, Z., Liu, Y., Liu, A., Wang, S., and Liu, H. (2018). Minimizing convergecast timeand energy consumption in green internet of things. IEEE Transactions on EmergingTopics in Computing.
Mesquita, J., Guimarães, D., Pereira, C., Santos, F., and Almeida, L. (2018). Assessingthe esp8266 wifi module for the internet of things. In 2018 IEEE 23rd InternationalConference on Emerging Technologies and Factory Automation (ETFA), volume 1,pages 784-791.
Sharma, P. K., Jeong, Y., and Park, J. H. (2018). Eh-hl: Effective communication modelby integrated eh-wsn and hybrid lifi/wifi for iot. TEEE Internet of Things Journal,5(3):1719-1726.
Siu, C. (2018). JoT and Low-Power Wireless: Circuits, Architectures, and Techniques.CRC Press.
Talebi, M., Papatsimpa, C., and Linnartz, J.-P. M. (2018). Dynamic performance analysisof ieee 802.15. 4 networks under intermittent wi-fi interference. In 2018 IEEE 29th Annual International Symposium on Personal, Indoor and Mobile Radio Communica-tions (PIMRC), pages 1-7. IEEE.
Published
2020-12-10
How to Cite
SILVA, Marcus; SILVEIRA, Matheus; BERNARDINO, Matheus; GOMES, Rafael.
Análise Experimental do Impacto da Transmissão de Dados via Wifi na Eficiência Energética de Dispositivos IoT. In: WORKSHOP ON EXPERIMENTAL RESEARCH OF THE FUTURE INTERNET (WPEIF), 11. , 2020, Rio de Janeiro.
Anais [...].
Porto Alegre: Sociedade Brasileira de Computação,
2020
.
p. 44-49.
ISSN 2595-2692.
DOI: https://doi.org/10.5753/wpeif.2020.12474.
