Mobile Medical Data Recording and Monitoring System (MediReMoS): A Preliminary Study Ali Osman Selvi * , (PUH 'DQGﾕO + , 0HVXW dHOHEL + * Department of Computer Technology, Vocational College, Bilecik Seyh Edebali University Gulumbe Campus, Bilecik Seyh Edebali University, Bilecik, Turkey *Department of Electrical and Electronics Engineering, Faculty of Technology, Sakarya University Esentepe Campus, Sakarya University, Sakarya, Turkey aliosman.selvi@bilecik.edu.tr + Department of Computer Engineering, Faculty of Engineering, Bilecik Seyh Edebali University Gulumbe Campus, Bilecik Seyh Edebali University, Bilecik, Turkey emre.dandil@bilecik.edu.tr, mesutcelebi44@hotmail.com Abstractｲ Thanks to the development of technology, new technologies and techniques are developed for the imaging, storage and evaluation of bedside patient monitoring device data. In existing systems, the patient is connected to these devices with many cables. This situation keeps the patient dependent on the bed during the disturbed discomfort period. Therefore, the individual is affected from this situation psychologically in the negative way and their own actions are restricted. The current devices and the patient's instant follow-up values are also monitored only from the bedside monitor. The physician or the personnel dealing with the patient need to check the bedside monitor devices at specific time intervals. In this study, a system (MediReMoS) designed using microcontroller and wireless technologies has provided to get rid of the cabling that allows the patients to stay connected to the monitor. Moreover, staff following the patient's status is also able to access patient monitor data thanks to a mobile application and data storage services. In this preliminary study, hardware and software processes have been successfully implemented using temperature and humidity sensors to detect body temperature and humidity. KeywordsｲMedical data recording; patient monitoring; microprocessor; wireless communication; mobile application. I. INTRODUCTION As a result of the chemical reactions in the human body, it is known that the action potentials in the organs and tissues occur at different frequencies and amplitudes [1]. These signals are used for diagnosis, analysis and follow-up procedures in medical technology. The development of technology leads to the development of new applications in many areas. One of these areas includes device technologies used in medical science [2]. In recent years, development in hardware and software has greatly facilitated the workload of physicians in diagnostic and analysis processes. However, it is difficult to say that this development is the same in current practice for the storage and monitoring of patients' medical data. Bedside patient follow-up systems enable the transfer of many biomedical signals to monitors, computers and printers. These signals may be such as electrocardiography, blood oxygen level, blood pressure, body temperature, heart rate, etc [3]. Real-time monitoring or retrospective analysis of these signals has paramount importance in some disease states. In existing systems, the patient is kept connected to these devices by several cables. This situation causes the patient to be affected psychologically in the negative direction and to restrict his movements by keeping the patient tied to the bed in the disturbing period. Moreover, the current devices and the patient's instant follow-up values are monitored only from the bedside monitor. The physician or the personnel, responsible for patient, need to check the bedside monitor devices at specific time intervals. Clinical record and documentation is one of the most basic professional responsibilities even if it is often seen poorly practiced. Healthcare providers communicate patient information through clinical recording and communication systems [4]. With development of technology SHRSOHｶV life is becoming dependent on mobile phones. There are many studies that how to use portable phones to aid mobile medical monitoring [5-7]. Mobile phone or devices can receive medical data from sensors via its own Bluetooth module [8]. Then they transmit local supervisory data to the remote server [9]. Thus, this process is useful to enlarge the range of data acquisition. Currently, many mobile monitoring systems have been available [10-12]. Some current mobile monitoring systems havenｶt enabled full use of mobile smartphones. In this study, a prototype of a large mobile system has been designed using microcontroller and wireless technologies. The primary purpose here is to remove the cable connections between bed-head monitoring devices of the person. In this respect, it is aimed to increase the comfort of life to a better level in the disease process of the individuals who should be kept in constant follow-up. The secondary purpose of the prototype is to provide real time tracking of the individual's medical data via a mobile application with the internet service on the prepared server. Thus, personnel will have the possibility to access the patient's real-time medical data if they are in constant control of the patient's condition. 7th International Conference on Advanced Technologies (ICAT'18) April 28-May 1,2018,Antalya/TURKEY _________________________________________________________________________________________________________________ E-ISBN: 978-605-68537-1-5 1060