@article{article_270309, title={Pulse Oximeter Manufacturing & Wireless Telemetry for Ventilation Oxygen Support}, journal={International Journal of Applied Mathematics Electronics and Computers}, pages={211–215}, year={2016}, DOI={10.18100/ijamec.270309}, author={Bülbül, Ali İhsan and Küçük, Serdar}, keywords={Pulse Oximeter,Oxygen saturation,Ventilation,Oxygen flow meter,Oxygen regulator,Wireless control}, abstract={<p class="03IJAMECAbstract" style="margin-right:0cm;text-align:justify;"> <span lang="en-us" xml:lang="en-us">Pulse Oximeter devices are widely
used as a non-invasive method for instant monitoring of blood oxygen saturation
and heart rate. In this paper, a wireless microcontroller based pulse oximeter
is proposed to measure the oxygen delivered to the patient via the oxygen
flowmeter. In the first step, the signals received from reusable SpO <sub>2 </sub>
sensor (finger probe) are processed by a microcontroller to determine the blood
oxygen saturation and heart rate. Depending on the current blood oxygen
saturation value, wireless signals are sent to the non-invasive ventilation
flow meter vacuum regulator to deliver the necessary oxygen into the patient.
Oxygen supplied to the patient is automatically controlled according to the
oxygen saturation change. </span> <i> <span lang="en-gb" xml:lang="en-gb"> </span> </i> </p> <p> <i> </i> </p> <i> </i>}, number={Special Issue-1}, publisher={PLUSBASE AKADEMİ ORGANİZASYON VE DANIŞMANLIK}