Volume 5, Number 2 (2020)
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Home > Journals > SCIREA Journal of Computer > Archive > Paper Information

IoT EHealth ecosystem based on the Universal Mobile Telecommunications System

Volume 5, Issue 2, April 2020    |    PP. 52-73    |PDF (733 K)|    Pub. Date: June 22, 2020
155 Downloads     967 Views  

Hamza ZEMRANE, Mohammadia School of Engineering, Lab RIME, Rabat, Morroco
Youssef BADDI, ESTSB, UCD, lab STIC, El Jadida, Morocco
Abderrahim Hasbi, Mohammadia School of Engineering, Lab RIME, Rabat, Morroco

The Internet of Things is perceived today as a key opportunity for commercial development in different sectors of activity. Ehealth is a new IoT ecosystem where several microcomputer with health detection capabilities can diagnose the state of health of a patient, to deduce if his condition is stable or if a need for medical intervention very fast is obligatory, to prevent against any threat that can make us lose our patient. Our work consist of connecting three Ehealth microcomputers, each one relayed to ten health sensors and an alert button, to collect the health information of three different patients in movement, and send it to the medical server in the Internet for decision making, using an UTMS network in the network access layer, andtheATMnetworkinthecorelayer.ThesimulationofourIoT Ehealth Ecosystem is done using the riverbed modeler academic edition 17.5, and lasts for 60 minutes, the performance study is done in the physical and data link layers, in the application layer in case of using a Voice and HTTP applications.

Ehealth, Internet of Things (IoT), Wireless Sensor Network (WSN), Low Power Wide Area Network (LPWAN), Universal Mobile Telecommunications System (UMTS).

Cite this paper
Hamza ZEMRANE, Youssef BADDI, Abderrahim Hasbi, IoT EHealth ecosystem based on the Universal Mobile Telecommunications System, SCIREA Journal of Computer. Vol. 5 , No. 2 , 2020 , pp. 52 - 73 .


[ 1 ] HILLIER, Aaron. Modifying Commercial RFID Tags using Poly- dimethylsiloxane based Polymers for Sensing Purposes. 2020. Thse de doctorat. University of Kent,.
[ 2 ] ZEMRANE, Hamza, BADDI, Youssef, et HASBI, Abderrahim. Internet of Things Smart Home Ecosystem. In : Emerging Technologies for Connected Internet of Vehicles and Intelligent Transportation System Networks. Springer, Cham, 2020. p. 101-125.
[ 3 ] ZEMRANE, Hamza, BADDI, Youssef, et HASBI, Abderrahim. Mobile AdHoc networks for Intelligent Transportation System: Comparative Analysis of the Routing protocols. Procedia Computer Science, 2019, vol. 160, p. 758-765.
[ 4 ] TEKLER, Zeynep Duygu, LOW, Raymond, GUNAY, Burak, et al. A scalable Bluetooth Low Energy approach to identify occupancy patterns and profiles in office spaces. Building and Environment, 2020, vol. 171, p. 106681.
[ 5 ] YEGIN, Alper, KRAMP, Thorsten, DUFOUR, Pierre, et al. LoRaWAN protocol: specifications, security, and capabilities. In : LPWAN Tech- nologies for IoT and M2M Applications. Academic Press, 2020. p. 37- 63.
[ 6 ] ZEMRANE, Hamza, BADDI, Youssef, et HASBI, Abderrahim. Com- parison between IOT protocols: ZigBee and WiFi using the OPNET simulator. In : Proceedings of the 12th International Conference on Intelligent Systems: Theories and Applications. 2018. p. 1-6.
[ 7 ] QIN, Zhenquan, SUN, Yingxiao, HU, Junyu, et al. Enhancing Efficient Link Performance in ZigBee Under Cross-Technology Interference. Mobile Networks and Applications, 2020, vol. 25, no 1, p. 68-81.
[ 8 ] FOURTET, Christophe et PONSARD, Benot. An introduction to Sigfox radio system. In : LPWAN Technologies for IoT and M2M Applications. Academic Press, 2020. p. 103-118.
[ 9 ] ZEMRANE, Hamza, BADDI, Youssef, et HASBI, Abderrahim. Ehealth smart application of WSN on WWAN. In : Proceedings of the 2nd International Conference on Networking, Information Systems Security. 2019. p. 1-8.
[ 10 ] ZEMRANE, Hamza, ABBOU, Aiman Nait, BADDI, Youssef, et al. Wireless Sensor Networks as part of IOT: Performance study of WiMax- Mobil protocol. In : 2018 4th International Conference on Cloud Computing Technologies and Applications (Cloudtech). IEEE, 2018. p. 1-8.
[ 11 ] ISLAM, Muhammad Khaledul et WIRTANEN, Jeffery. Method and system for signaling release cause indication in a UMTS network. U.S. Patent No 10,582,562, 3 mars 2020.
[ 12 ] MALLADI, Durga Prasad, WEI, Yongbin, HORN, Gavin B., et al. Long term evoluton (LTE) user equipment relays having a licensed wireless or wired backhaul link and an unlicensed access link. U.S. Patent No 10,588,101, 10 mars 2020.