Recent Innovations in Wireless Network Security (e-ISSN: 3048-8354)

This research is focused on the design of Internet of Things (IoT) Intravenous drip bag monitoring system where the healthcare workers are signaled immediately any of the patients drip bag finish. The system will alert the healthcare workers to prepare for the next step to follow as directed by the consultant. This will reduce the excess process delay experienced by patients in healthcare services. Firstly, the objective was to monitor the working principle and understand how the intravenous drip bag was used then to do a schematic diagram of the principle. After a designed to translate the principle and operation of the Intravenous bag from the schematic diagram was also translated to choose the desired components for the design of the circuit that will work maximally. However, the circuit was test and the design was concluded. The research work is limited to function properly only in a fix elevated position.  

Al-Tudjman, F. & Deepak B. D. (2020). Privacy-aware energy-efficient framework using the internet of medical things for COVID-19. IEEE Internet Things Mag. 3(3), 64-68

Gavimath, C. C., Krishnamurthy, B., Chayalakshmi, C. C., Hooli, R.S. & Ravishankera. B. E. (2012). Design and Development of versatile saline flow rate measuring system and GSM based remote monitoring device”, International Journal of Pharmaceutical Applications ISSN 0976-2639., (3)1

Kalaivani, P. Thamaraiselvi, T. Sindhuja, P. & Vegha, G. (2017). Saline Level Monitoring System Using Arduino UNO Processor “Asian Journal of Ap- plied Science and Technology (AJAST) (1).

Pattarakamon, R., Paweena, S., & Phakphoom B. (2014). Low-Cost Saline Droplet Measurement System using for Common Patient in Rural Public Hospital. “The 4th Joint International Conference on Information and Communication Technology, Electronic and Electrical Engineering (JICTEE) 978-1-4799-3855-1/14.

Priyadharshini, R., Mithuna, S., Vasanth K. U, Kalpana D. S., & Dr. Suthanthira V. N. (2015). Automatic Intravenous Fluid Level Indication System for Hospitals “International Journal for Research in Applied Science & Engineering Technology; 3(8).

Rutuja, S., Pratibha, A. & Rahul, A. (2019).

Rivera, A.M., Strauss, K.W., Van, A., Zundert, A. Anaesthesiologica (2005). The History of Peripheral Intravenous Catheters: How Little Plastic Tubes Revolutionized Medicine. Acta Anesthesiologica Belgica. 56(3) 271–282.

Southorn, P. A. & Bradley, J. N. (2008). The Massa or Rochester Plastic Needle. Mayo Clinic Proceedings. 83(10) 1165–1167.