An automated self-oxygen regulator system based on body weight, respiration rate, and blood saturation successfully controlled oxygen output with a delta error of 0.5–1 L/min.
An automated oxygen regulator system was designed to adjust oxygen flow based on patient parameters, achieving a delta error of 0.5-1 L/min in testing.
One of the symptoms that appears in patients with COVID-19 is hypoxia or a lack of oxygen in the body’s tissues or cells below the proper level. One of the methods used to treat hypoxia is to provide oxygen to the patient. Another device that is needed in oxygen therapy for the patient is an oxygen regulator. An oxygen regulator is needed to regulate the volume of oxygen released to the patient. Currently, the control of oxygen flow by the regulator is still done manually. Therefore, in this study, an oxygen regulator was designed that has the ability to regulate the volume of oxygen output based on body weight, respiration rate, and blood saturation. Using these three parameters, the volume of oxygen to be released is adjusted according to the patient’s needs. The system consists of a temperature sensor, mlx90614, and an oxygen saturation sensor, Max30102. The data from the two sensors are processed using microcontrollers to control the movement of the stepper motor as a regulator of the oxygen output volume. The test results show that the system can control the oxygen regulator automatically with a delta error of 0.5–1 L/min. This device is expected to be used for COVID-19 patients who are undergoing self-isolation or who are outpatients.
Irawati et al. (Tue,) conducted a other in COVID-19 (hypoxia). Self-Oxygen Regulator System was evaluated on Delta error of oxygen output volume control. An automated self-oxygen regulator system based on body weight, respiration rate, and blood saturation successfully controlled oxygen output with a delta error of 0.5–1 L/min.