Please use this identifier to cite or link to this item: http://ir.futminna.edu.ng:8080/jspui/handle/123456789/9525
Title: Development of Robotic Arm Based Diagnostic System for Tele-Monitoring
Authors: Folorunso, Talha Abiodun
Olaniyi, Olayemi Mikail
Nuhu, B. K.
Bima, M. E.
Ajani, O.S.
Keywords: Diagnosis
Clinical Diseases
Robotic arm
Degree of Freedom
Robot Workspace
End Effector
Arduino Graphic User Interface
servo motors
Issue Date: 2016
Publisher: ISTEAMS/ University of Professional Studies Ghana
Citation: Folorunso, T. A., Olaniyi, O. M. ,Nuhu, B.K. Bima, M. E., Ajani, O.S. (2016), ”Development of Robotic Arm Based Diagnostic System for Tele-Monitoring”, Proceedings of ISTEAMS Multidisciplinary Cross Border Conference, University of Professional Studies, Accra, Ghana, pp 361-366.
Abstract: Over the years there has been a lot of advancement in the quest to improve the process of diagnosing deadly clinical diseases such as Ebola and Middle East Respiratory Syndrome (MERS), etc. One of such improvements is the development of diagnostic systems such as the Da Vince machine. However, the cost of acquisition of such systems is very high and requires interaction between the medical attendants and patients at some points. Hence, the need for a tele-diagnostic system that will reduce the attendant to patient interaction for these deadly and tropical diseases. This work, presents a robotic arm based tele-diagnostic system for remotemonitoring of patient with endemic deadly disease like Ebola and MERS. The robotic arm in the developed system has three Degree of Freedom (DOF) with a temperature sensor as the end effector of the arm which allows interaction between the robot arm and the patients in the clinical environment. The arm was completed using servo motors to achieve each DOF and a network of encoders was developed to control the arm within its workspace based on the mapped signals provided to the servo motors by the ATMEGA368 Microcontroller unit which was programmed using Arduino Integrated Development Environment. To process and visualize the patient’s body temperature values from the sensor, a clinical software was built in the processing version 2.2.1 environment which communicates serially through an RS232 cable with the microcontroller unit. A Graphic User Interface (GUI) was also developed to show the variation in the patient’s body temperature graphically. Several testing and validation were carried out and the results obtained showed that operating the robotic arm without any program delay introduced will result to an unstable display of temperature data on the GUI.
Description: Development Of Robotic Arm Based Diagnostic System For Clinical Tele-Monitoring
URI: http://docs.wixstatic.com/ugd/185b0a_14c5ad0cb80b498da503c96a23c99e51 .pdf
http://repository.futminna.edu.ng:8080/jspui/handle/123456789/9525
Appears in Collections:Computer Engineering

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