An efficient data routing scheme for multi-patient monitoring in a biomedical sensor network through energy equalization strategy

Biomedical sensor networks find wide applications in human health monitoring. In such applications, routing strategies in the sensor nodes play a key role towards energy efficiency of the overall system. In this work, we present a new data routing scheme, which is based on residual energy in a node...

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Published in	Wireless networks Vol. 27; no. 1; pp. 635 - 648
Main Authors	Chandra, Soumyak, Chandra, Abhijit, Gupta, Rajarshi
Format	Journal Article
Language	English
Published	New York Springer US 01.01.2021 Springer Nature B.V
Subjects	Biosensors Communications Engineering Computer Communication Networks Data collection Developing countries Electrical Engineering Electrocardiography Engineering Equalization IT in Business LDCs Medical electronics Networks Nodes Residual energy Sensors Wireless networks Routing Energy efficiency Biomedical sensor nodes Node lifetime Latency
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Abstract	Biomedical sensor networks find wide applications in human health monitoring. In such applications, routing strategies in the sensor nodes play a key role towards energy efficiency of the overall system. In this work, we present a new data routing scheme, which is based on residual energy in a node and equalization (named EEQ) among the neighbours to achieve enhanced average node lifetime under short range monitoring scenario. The scheme was hardware implemented using 12 number of indigenous ATmega328 based static biomedical sensor nodes (BSN) arranged in a grid matrix spread over a floor area of 564 sqm. The objective was to collect short duration electrocardiogram and photoplethysmogram signals from human subjects in a local supervisory computer placed outside the grid. Under simulation platform using 100 BSNs with first order radio model, it was found that the average node lifetime was enhanced by 17% against without EEQ evaluated over 10,000 consecutive data collection sessions. The proposed scheme can be useful for providing low cost solution in healthcare settings in developing nations like India.
AbstractList	Biomedical sensor networks find wide applications in human health monitoring. In such applications, routing strategies in the sensor nodes play a key role towards energy efficiency of the overall system. In this work, we present a new data routing scheme, which is based on residual energy in a node and equalization (named EEQ) among the neighbours to achieve enhanced average node lifetime under short range monitoring scenario. The scheme was hardware implemented using 12 number of indigenous ATmega328 based static biomedical sensor nodes (BSN) arranged in a grid matrix spread over a floor area of 564 sqm. The objective was to collect short duration electrocardiogram and photoplethysmogram signals from human subjects in a local supervisory computer placed outside the grid. Under simulation platform using 100 BSNs with first order radio model, it was found that the average node lifetime was enhanced by 17% against without EEQ evaluated over 10,000 consecutive data collection sessions. The proposed scheme can be useful for providing low cost solution in healthcare settings in developing nations like India. Biomedical sensor networks find wide applications in human health monitoring. In such applications, routing strategies in the sensor nodes play a key role towards energy efficiency of the overall system. In this work, we present a new data routing scheme, which is based on residual energy in a node and equalization (named EEQ) among the neighbours to achieve enhanced average node lifetime under short range monitoring scenario. The scheme was hardware implemented using 12 number of indigenous ATmega328 based static biomedical sensor nodes (BSN) arranged in a grid matrix spread over a floor area of 564 sqm. The objective was to collect short duration electrocardiogram and photoplethysmogram signals from human subjects in a local supervisory computer placed outside the grid. Under simulation platform using 100 BSNs with first order radio model, it was found that the average node lifetime was enhanced by 17% against without EEQ evaluated over 10,000 consecutive data collection sessions. The proposed scheme can be useful for providing low cost solution in healthcare settings in developing nations like India.
Author	Chandra, Abhijit Chandra, Soumyak Gupta, Rajarshi
Author_xml	– sequence: 1 givenname: Soumyak surname: Chandra fullname: Chandra, Soumyak organization: Electrical Engineering Section, Department of Applied Physics, University of Calcutta – sequence: 2 givenname: Abhijit surname: Chandra fullname: Chandra, Abhijit organization: Department of Instrumentation and Electronics Engineering, Jadavpur University – sequence: 3 givenname: Rajarshi orcidid: 0000-0001-5964-7683 surname: Gupta fullname: Gupta, Rajarshi email: rgaphy@caluniv.ac.in organization: Electrical Engineering Section, Department of Applied Physics, University of Calcutta
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Snippet	Biomedical sensor networks find wide applications in human health monitoring. In such applications, routing strategies in the sensor nodes play a key role...
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Title	An efficient data routing scheme for multi-patient monitoring in a biomedical sensor network through energy equalization strategy
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