Regular blood pressure monitoring is essential for maintaining optimal health and
preventing serious complications. However, current digital sphygmomanometers lack the
capability to provide immediate blood pressure category results, requiring users to search for
this information separately or consult with healthcare professionals. Furthermore, manual
medical record-keeping practices lead to data separation and loss.
To address these challenges, this thesis presents the development of an IoT-integrated
digital sphygmomanometer. The device offers convenient and accurate blood pressure
monitoring while providing real-time blood pressure category results. Additionally, an
ergonomic design enhances portability, enabling users to monitor their blood pressure anytime,
anywhere. To ensure efficient data management, a software application facilitates secure data
transmission and storage in a centralized database.
Through rigorous testing and evaluation, the IoT-integrated digital sphygmomanometer
demonstrates accuracy on par with desktop sphygmomanometers. The solution empowers
individuals to proactively manage their blood pressure and enables healthcare providers to
access accurate patient information for improved healthcare delivery.
This research addresses the deficiencies of current digital sphygmomanometers,
combining accuracy, convenience, and efficient data management. The IoT integration
enhances blood pressure monitoring and data collection, leading to improved healthcare
outcomes and streamlined workflows for healthcare providers.
Keywords : IoT, digital sphygmomanometer, blood pressure monitoring, blood pressure
category, data management