Trends in Opto-Electro & Optical Communications

Because of the absence of portable foundation in local regions, a ton of current innovations can't be utilized effectively. With Long Range (LoRa) and Long Range Wide Area Network (LoRaWAN), there are new ideas for remote long-range correspondence which have been set up. They empower an advanced specialized answer for convey in rural regions, where current portable organization inclusion is absent. This paper examines LoRaWAN for Agriculture and Healthcare based use cases. Henceforth, two use cases were assessed. In the primary use case, the temperature of Coronavirus presume patients was estimated and sent by considering the negligible utilization of the radio channel. In the subsequent use case, a self-formedgadget was covered into the agriculture land at a profundity of 10 down to 60 cm to investigate the dirt properties and test the porousness of agriculture land. Moreover, a worker and entryway engineering with admittance to a cloud framework for information handling objects was planned and in a subsequent advance, a low force model with various sensors for information assortment for the portrayed use cases was created. The primary advantage of this paper is the assessment of LoRaWAN for the utilization in indoor and open air applications for Horticultural organizations. The introduced results are the initial step for region wide ongoing observing of significant agriculture information in rustic regions which empowers the accuracy response to actual changes.

K. Zheng, H. Meng, P. Chatzimisios, L. Lei, and X. Shen, “An smdpbased resource allocation in vehicular cloud computing systems,” IEEE Transactions on Industrial Electronics,vol.62,pp.7920–7928,Dec.2015.

J. So, D. Kim, H. Kim, H. Lee, and S. Park, “Loracloud: Lora platform on openstack,” in 2016 IEEE NetSoft Conference and Workshops, pp. 431– 434, June 2016.

The Things Network. Available: https://www.thethingsnetwork.org. [Online; accessed Mar. 15, 2019].

LoRa Server, Open-source LoRaWAN Network-server. Available: https://www.loraserver.io/. [Online; accessed Mar. 15, 2019].

U. Raza, P. Kulkarni, and M. Sooriyabandara, “Low power wide area networks: An overview,” vol. 19, no. 2, pp. 855–873.

L.Hou,S.Zhao,X.Xiong,K.Zheng,P.Chatzimisios,M.S.Hossain,and W. Xiang, “Internet of things cloud: Architecture and implementation,” IEEE Communications Magazine, vol. 54, pp. 32–39, Dec. 2016.

W. Zhao, S. Lin, J. Han, R. Xu, and L. Hou, “Design and implementation of smart irrigation system based on lora,” in IEEE Globecom Workshops (GC Wkshps), pp. 1–6, Dec. 2017.

Semtech, “Lora network packet forwarder project.” Available: https://github.com/Lora- net/packet_forwarder. [Online; accessed Mar. 15, 2019].

Prof. Congduc Pham, “A Low-Cost LoRa Gateway with QoS Features”, http://www.univpau.fr/~cpham, Université de Pau, France, May 2016.

Semtech Corporation, “SX1272/73 - 860 MHz to 1020 MHz Low Power Long Range Transceiver”, www.semtech.com, March 2015.

LoRa Alliance Technical committee, “LoRaWAN™ Regional Parameters”, LoRa™ Alliance, July 2016.

Hong Sun Hag, Cho Kyung Soon, “Full Stack Platform Design with MongoDB”, Journal of the Institute of Electronics and Information Engineers, THE INSTITUTE OF ELECTRONICS ENGINEERS OF KOREA, pp.152- 158. Dec 2016.