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A priority based energy harvesting scheme for charging embedded sensor nodes in wireless body area networks

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  • Md Khurram Monir Rabby
  • Mohammad Shah Alam
  • MST Shamim Ara Shawkat

Abstract

This research work proposes a novel priority aware schedule based charging algorithm that uses wireless power transfer (WPT) technique in order to charge embedded sensor nodes (SNs) in a wireless body area network (WBAN). Implanted sensor nodes in WBANs require energy for both information extraction and data transmission to the remote controller unit. Thus, energy shortage of these SNs deteriorates due to the data transmission process of the patient health monitoring system. However, continuous operation by means of electromagnetic induction for energy harvesting, obtained from ambient sources, reduces the overall efficiency of the primary unit. With this paradigm in sight, an algorithm demonstrating the modeling of a priority-based mechanism is proposed in order to ensure proper sensor voltage level and to reduce the transmission losses. Medium access control (MAC) protocols are used for inductive powering from the primary unit to the secondary unit in a collision-free centralized scheduling scheme. Therefore, the proposed wireless charging algorithm for implanted SNs in WBAN is designed as per carrier sense multiple access with collision avoidance (CSMA/CA) technique. Because of this, the overall power consumption of SNs for certain operation periods, successful charging probabilities for multiple SNs, and instantaneous power requirements are considered as key performance measures of analysis. It is assumed that proper energy storage in both transmitters and receivers can handle channel interference and traffic contention. Simulation results verify that a significant reduction in power consumption for the proposed priority aware algorithm will maintain almost similar output. For this reason, saturating class—C as well as class—E driver circuits have been used to justify the performance in two different circuit topologies. Effects of priority with respect to the full charge period have also been observed for the multi-node system. Furthermore, from performance analysis, it has been demonstrated that the scheduling scheme causes both single MOSFET composed saturating class—C and Lchoke modeled class—E associated driver circuits to be considerably more loss efficient than corresponding existing ones.

Suggested Citation

  • Md Khurram Monir Rabby & Mohammad Shah Alam & MST Shamim Ara Shawkat, 2019. "A priority based energy harvesting scheme for charging embedded sensor nodes in wireless body area networks," PLOS ONE, Public Library of Science, vol. 14(4), pages 1-22, April.
  • Handle: RePEc:plo:pone00:0214716
    DOI: 10.1371/journal.pone.0214716
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    References listed on IDEAS

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    1. Elizabeth Gibney, 2015. "The inside story on wearable electronics," Nature, Nature, vol. 528(7580), pages 26-28, December.
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    Cited by:

    1. Innocent Uzougbo Onwuegbuzie & Shukor Abd Razak & Ismail Fauzi Isnin & Tasneem S J Darwish & Arafat Al-dhaqm, 2020. "Optimized backoff scheme for prioritized data in wireless sensor networks: A class of service approach," PLOS ONE, Public Library of Science, vol. 15(8), pages 1-31, August.

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