27 October 2020 12:00 am Views - 2145
The AuBiKTransMobi, is a transformable medical platform that includes patient monitoring capabilities like ECG, body temperature and SPO2 ect. The project was initiated based on some real requirements in the Sri Lankan medical sector.
The 11 students who specialise in mechatronics had the opportunity to receive a 3-month industrial training and research exposure in China under the joint agreement of the University of Moratuwa and Shangdong University of Science and Technology in 2019
Dr. Ranjith Amarasinghe, Coordinator of Mechatronics said, ‘’The Bed is designed with novel concepts including an extendable wheelbase, a novel four-bar linkage to increase patient comfort and unique bed extension mechanisms. The platform occurs multifunctional system which can be used in three main modes which are the bed, trolley and wheelchair mode. This can be smoothly converted into all the required key clinical positions through the hydraulic based control system. The critical patient’s data (ECG, SPO2, Temperature, blood pressure, etc.) is being collected by an IOT based system which is embedded in the medical bed. The collected data will be stored in an online database in a patient profile and the data is being transmitted to the doctor’s mobile device for real-time monitoring.
“The platform was designed and invented from scratch at the university by the group of members with the help of work-shop staff and have successfully integrated the hydraulic based low-level controller and the IoT based patient monitoring system to the mechanical structure.
The 11 students who specialise in mechatronics had the opportunity to receive a 3-month industrial training and research exposure in China under the joint agreement of the University of Moratuwa and Shangdong University of Science and Technology in 2019. ’’
The project group members extend their profuse gratitude to the Vice chancellor of University of Moratuwa, the Dean faculty of Engineering, Department head of the Department of Mechanical Engineering, the academic staff of the department of mechanical engineering and the workshop staff for the support extended to them. Further, they thank every person who helped them in carrying out this research and development.