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Security for health information by elliptical curve Diffie-Hellman and improve energy efficiency in WBAN

Wireless body area networks (WBAN) necessitate long-life connections and energy-efficient systems. Moreover, the rising commercialization, health observing applications calls for raising the routing efficiency. The concern of the trustworthy and energy-efficient link is vital to support the enhancem...

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Main Authors:	Azath, H., Gokulraj, J., Surendiran, J., Geetha, D., Babu, T. R. Ganesh
Format:	Conference Proceeding
Language:	English
Subjects:	Body area networks Commercialization Energy efficiency Nodes Secrecy aspects Sensors Simulation Wireless networks
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creator	Azath, H. Gokulraj, J. Surendiran, J. Geetha, D. Babu, T. R. Ganesh
description	Wireless body area networks (WBAN) necessitate long-life connections and energy-efficient systems. Moreover, the rising commercialization, health observing applications calls for raising the routing efficiency. The concern of the trustworthy and energy-efficient link is vital to support the enhancement of the WBAN function. In addition, in each sensor node activity, dissolute energy has a heating result that may reason poor operation of the many physical condition risks to observed individuals. Therefore, the concern of a sensor node energy is a significant parameter. Furthermore, several existing lightweight authentication approaches have various security exposures, particularly the need for forwarding secrecy. Security for Health Information by Elliptical Curve Diffie-Hellman and improved energy efficiency (EIEE) in WBAN are proposed to solve these issues. This approach's main goal is to distinguish the unreliable sensor and improve energy efficiency in the WBAN. Here, the untrustworthy node is recognized through the ECDH technique. This approach updates the secret key to notice the inconsistent sensor node and segregate from routing, raising the network function. Here, we simulate the IEEE approach utilizing the network simulator. The simulation outcomes demonstrate that EIEE declares you minimize the delay and enhance the throughput and remaining energy in the WBAN.
doi_str_mv	10.1063/5.0110677
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R. Ganesh</creator><contributor>Prabhahar, M ; Sendilvelan, S.</contributor><creatorcontrib>Azath, H. ; Gokulraj, J. ; Surendiran, J. ; Geetha, D. ; Babu, T. R. Ganesh ; Prabhahar, M ; Sendilvelan, S.</creatorcontrib><description>Wireless body area networks (WBAN) necessitate long-life connections and energy-efficient systems. Moreover, the rising commercialization, health observing applications calls for raising the routing efficiency. The concern of the trustworthy and energy-efficient link is vital to support the enhancement of the WBAN function. In addition, in each sensor node activity, dissolute energy has a heating result that may reason poor operation of the many physical condition risks to observed individuals. Therefore, the concern of a sensor node energy is a significant parameter. Furthermore, several existing lightweight authentication approaches have various security exposures, particularly the need for forwarding secrecy. 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source	American Institute of Physics:Jisc Collections:Transitional Journals Agreement 2021-23 (Reading list)
subjects	Body area networks Commercialization Energy efficiency Nodes Secrecy aspects Sensors Simulation Wireless networks
title	Security for health information by elliptical curve Diffie-Hellman and improve energy efficiency in WBAN
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