Design of Automated Control and Monitoring System for Intravenous Infusion Based on IoT M. Moovendan, J. Ajay Daniel, Ramamoorthy M, Jayaprakash J, Mohanraj M, Pasupathi M Proceedings of the International Conference on Circuit Power and Computing Technologies Iccpct 2023, 2023 The creation of new health units in medical centre is made extremely difficult by gadget development in biomedical engineering. Hospitals still require an automated system due to a large number of patients they see and the availability of nursing facilities. In hospitals' ICU and CCU departments, monitoring and indicating healthcare operations is an exceptionally crucial responsibility. Everyone must take cautious steps to maintain their health because as the population grows, so does the demand for healthcare supplies and maintenance. Many automatic health monitoring gadgets are being created today to assure patient safety and relieve doctor stress. Many sophisticated treatments have emerged because of technical development to guarantee speedy recuperation. Many cutting-edge procedures have been developed because of technological advancement to ensure that hospital patients recover quickly. A treatment known as intravenous therapy involves injecting intravenous fluids, medications, blood, and direct blood products into a vein. On the whole, the amount of saline administered to the patient should be considered while measuring and controlling the flow of saline or intravenous fluids. Here, employing a single window system and fluid warming principles, an IoT-based fully automated system for controlling the fluid flow and continuous monitoring, and a saline containerization replacement method are provided. Heartbeat, blood pressure, and body temperature are monitored while intravenous (IV) fluids are administered and sent to the doctor using SMS technology. IoT gateway and Arduino-based flow control. The next generation of nurses and caregivers will be able to monitor the fully automated IV fluid feeding system with the aid of this device.
Energy Improvement in Distribution Network Using Sliding Mode Controller Based SVC System Ramya G, Vinil M, Ajay Daniel J, Moovendan M Ecs Transactions, 2022 Static Var Compensator is a shunt type reactive power compensation device used to enhance the energy in the distribution system. This paper presents the power quality improvement using SVC in 14 bus system using Proposed Resonance and Sliding Mode (SM) Controller to improve the power quality. Minimized power losses and improved power transfer capacity to stabilize the weak system are the main functions of the SVC system. The instantaneous response of SVC is the main important advantage in comparison with mechanically switched compensation devices. SVC is installed at the point of common coupling to improve the reactive power. The performance of the multibus system is analyzed in terms of real power, reactive power, and RMS voltage of the system, and is simulated using MATLAB Simulink.
Reactive Power Injection To Grid Using Transformer-Less MOSFET Based Single Phase Inverter Using Pv To Achieve High Efficiency Vinil M, Ramya G, Moovendan M, Ajay Daniel J Ecs Transactions, 2022 The transformer-less inverter has an increasing demand due to its low cost, high efficiency, and reliability. The elimination of transformers from grid connected PV enables to create the leakage currents across stray capacitance, which is connected between PV and the ground. To overcome this disadvantageous issue, the topology used is a single step conversion process of directly connecting coupled inductor to the grid. The efficiency and the quality of AC output current is improved by implementation of high frequency PWM switching commutation to the converter. The proposed system is focused to inject reactive power to the grid, changing the controlling techniques used for the Gate Pulse input, and reducing the number of switches, passive elements, and harmonics. It has an overall efficiency of 98.04%, higher than those of existing converters.
A research on microgrid technology by non conventional and renewable sources M Anjalakshi, S. Pavithra, M Moovendan, P. Srinivasan, R Ramakumar, et al. International Journal of Recent Technology and Engineering, 2019 Microgrid are little gathering of interconnected power age in charge innovations that can work inside or free of a focal matrix, genuine aggravations and expandingsystem unwavering quality.Distributed resources can give capacity to local loads in the electric distribution system just as advantages,for example improve unwavering quality.Microgrid are capable of operating in grid tied mode and islanded mode.An ideal power system is utilized to decide the ideal allotment of assets utilizing a tranformative programming stratergy,acomplishing the most the minimal expense of providing the interest while representing physical activity.
Electric bikes over fuel bikes with the help of ANFIS model in India International Journal of Recent Technology and Engineering, 2019
Investigation of FACTS controller International Journal of Control Theory and Applications, 2016
