Design and Implementation of an IoT Based Smart Syringe Infusion Pump Prototype for Enhanced Healthcare Support

Abstract

The development of a portable Internet of Things (IoT)-based smart syringe infusion pump is highlighted in this study. Its goal is to continuously monitor and optimize the delivery of infusion medication. The gadget interfaces with flow, pressure, and accelerometer sensors via an ESP32 microcontroller. This enables real-time data collecting on infusion settings. Essential information is needed by healthcare practitioners to modify treatment plans and guarantee the success of home-based infusion therapy. Even if new studies have shown the promise of medical gadgets that may be utilized at home or in a clinic, current technologies are often cumbersome and costly to use alone. The smart syringe infusion pump takes care of this problem well and provides a cost-effective and useful solution. The device fills the gap between the need for complex and costly infusion technology and the desire for therapies that are conveniently accessible and may be administered at home. A cost-effective and efficient treatment alternative is infusion therapy, which has been made innovative by the integration of sensor technologies into a small, smart infusion pump.

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