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Automatic Wireless Nurse Caller

Sigit Widadi, Sultan Al Badrun Munir, Nishith Shahu, Irfan Ahmad, Israa Al Barazanchi

Abstract


The nurse caller device is used as a special communication device between the patient and the nurse within the hospital area as a means of speeding the nurse's time response in providing immediate care to the patient. The designed wireless-based nurse caller device made installation easier and neater. The remote used a Bluetooth module MH-10 connected to the ATMega8 microcontroller as the sender and receiver. The data process using a microcontroller ATMega8 produced characters on the LCD, turned on the LED, and activated the buzzer to call the nurse. The results of the test on the device showed that the farthest distance taken by the HM-10 Bluetooth module in the open area (outdoor) was about 45 meters, and the closed area (indoor) was about 20 meters.

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References


F. Vannieuwenborg et al., “Techno-economic evaluation of an ontology-based nurse call system via discrete event simulations,” in 2014 IEEE 16th International Conference on e-Health Networking, Applications and Services (Healthcom), 2014, no. Ssh, pp. 82–87.

C. Sharma and D. K. Gautam, “Design development and implementation of wired Nurse calling system,” in 2015 International Conference on Green Computing and Internet of Things (ICGCIoT), 2015, vol. 9, no. 5, pp. 1258–1262.

T. Maekawa et al., “A study on automatic evaluation method of pointing and calling for nurse education,” in 2015 International Conference on Intelligent Informatics and Biomedical Sciences (ICIIBMS), 2015, pp. 383–384.

N. Khera, S. Tiwari, R. P. Singh, T. Ghosh, and P. Kumar, “Development of android based smart home and nurse calling system for differently abled,” in 2016 5th International Conference on Wireless Networks and Embedded Systems (WECON), 2016, pp. 1–4.

M. S. Mahmud, M. A. Majumder, A. K. Tushar, M. M. Kamal, A. Ashiquzzaman, and M. R. Islam, “Real-time feedback-centric nurse calling system with archive monitoring using Raspberry Pi,” in 2017 4th International Conference on Networking, Systems and Security (NSysS), 2017, vol. 2018-Janua, pp. 1–5.

S. Suryono, W. Widowati, S. P. Putro, and S. Sunarno, “A Capacitive Model of Water Salinity Wireless Sensor System Based on WIFI-Microcontroller,” in 2018 6th International Conference on Information and Communication Technology (ICoICT), 2018, vol. 0, no. c, pp. 211–215.

S. Thakare and P. H. Bhagat, “Arduino-Based Smart Irrigation Using Sensors and ESP8266 WiFi Module,” in 2018 Second International Conference on Intelligent Computing and Control Systems (ICICCS), 2018, no. Iciccs, pp. 1–5.

C. S.N., S. Singha, S. Ghorai, N. V., and B. Samuel, “Getting Information about the Neighbour Street Light Using WIFI Mesh Network,” in 2018 International Conference on Design Innovations for 3Cs Compute Communicate Control (ICDI3C), 2018, pp. 130–132.

N. Riviezzo and B. Martinez, “WiFi Enabled Speech Recognition Controller Node,” in 2017 IEEE Long Island Systems, Applications and Technology Conference (LISAT), 2017, pp. 1–6.

Z. Xiao, D. Liu, D. Cao, and X. Wang, “Design of Home Appliance Control System in Smart Home based on WiFi IoT,” in 2018 IEEE 3rd Advanced Information Technology, Electronic and Automation Control Conference (IAEAC), 2018, no. Iaeac, pp. 765–770.

M. F. Akorede, J. J. Fatigun, J. A. Opaluwa, and E. Pouresmaeil, “Efficient remote control system using SMS and WiFi technology for outdoor security lighting applications,” in 2017 IEEE PES PowerAfrica, 2017, pp. 512–517.

G. Dai and P. Wang, “Design of intelligent car based on WiFi video capture and OpenCV gesture control,” in 2017 Chinese Automation Congress (CAC), 2017, vol. 112, no. 483, pp. 4103–4107.

X. Gao, B. Zhang, and S. Li, “A 220-volts power switch controlled through WiFi,” in 2016 First IEEE International Conference on Computer Communication and the Internet (ICCCI), 2016, pp. 526–529.

P. B. Jarande, S. P. Murakar, N. S. Vast, N. P. Ubale, and S. S. Saraf, “Robotic Vacuum Cleaner Using Arduino with Wifi,” in 2018 Second International Conference on Inventive Communication and Computational Technologies (ICICCT), 2018, no. 9, pp. 1513–1517.

S. H. Pramono, S. N. Sari, and E. Maulana, “Internet-based monitoring and protection on PV smart grid system,” in 2017 International Conference on Sustainable Information Engineering and Technology (SIET), 2017, vol. 2018-Janua, pp. 448–453.

M. Y. Aalsalem and W. Z. Khan, “CampusSense - A Smart Vehicle Parking Monitoring and Management System using ANPR Cameras and Android Phones,” vol. 5, no. 2, 20170.

Sriyanka and S. R. Patil, “Smart Environmental Monitoring through Internet of Things (IoT) using RaspberryPi 3,” in 2017 International Conference on Current Trends in Computer, Electrical, Electronics and Communication (CTCEEC), 2017, pp. 595–600.

Z. Chen, Q. Zhu, M. K. Masood, and Y. C. Soh, “Environmental Sensors-Based Occupancy Estimation in Buildings via IHMM-MLR,” IEEE Trans. Ind. Informatics, vol. 13, no. 5, pp. 2184–2193, Oct. 2017.

R. Yu, W. Wu, N. Xia, H. Geng, and M. Liu, “Real-time carbon dioxide emission monitoring system based on participatory sensing technology,” in The Fourth International Workshop on Advanced Computational Intelligence, 2011, pp. 230–235.

W. Tian-He, M. Li, W. Zhong-Hua, Y. Lin, W. Can, and S. Qin-Peng, “Design of Comprehensive Monitoring and Analysis Instrument for Mine Environment,” in 2018 Chinese Automation Congress (CAC), 2018, pp. 3885–3889.

D. Nettikadan and R. M. S. Subodh, “IOT Based Smart Community Monitoring Platform for Custom Designed Smart Homes,” in 2018 International Conference on Current Trends towards Converging Technologies (ICCTCT), 2018, pp. 1–6.

Z. Shiqi, W. Xiaohui, and C. Hongbing, “Equipment control and environmental monitoring design of smart home,” in 2018 Chinese Control And Decision Conference (CCDC), 2018, pp. 513–517.

P. K. Madupu and B. Karthikeyan, “Automatic Service Request System for Security in Smart Home Using IoT,” in 2018 Second International Conference on Electronics, Communication and Aerospace Technology (ICECA), 2018, no. Iceca, pp. 1413–1418.

H. Bura, N. Lin, N. Kumar, S. Malekar, S. Nagaraj, and K. Liu, “An Edge Based Smart Parking Solution Using Camera Networks and Deep Learning,” in 2018 IEEE International Conference on Cognitive Computing (ICCC), 2018, pp. 17–24.

A. Singh, Y. Pandey, A. Kumar, M. K. Singh, A. Kumar, and S. C. Mukhopadhyay, “Ventilation Monitoring and Control System for High Rise Historical Buildings,” IEEE Sens. J., vol. 17, no. 22, pp. 7533–7541, Nov. 2017.

S. Widadi, M. K. Huda, I. Ahmad, and O. Tanane, “Atmega328P-based X-ray Machine Exposure Time Measurement Device with an Android Interface,” J. Robot. Control, vol. 1, no. 3, pp. 81–85, 2020.

A. Hassan et al., “A Wirelessly Controlled Robot-based Smart Irrigation System by Exploiting Arduino,” J. Robot. Control, vol. 2, no. 1, pp. 29–34, 2020.

K. Kunal, A. Z. Arfianto, J. E. Poetro, F. Waseel, and R. A. Atmoko, “Accelerometer Implementation as Feedback on 5 Degree of Freedom Arm Robot,” J. Robot. Control, vol. 1, no. 1, pp. 31–34, 2020.

J. Crha, O. Tupa, J. Mares, and A. Prochazka, “Navigation of robotic platform for gait disorders monitoring,” in 2016 International Conference on Applied Electronics (AE), 2016, vol. 2016-Septe, pp. 57–60.




DOI: https://doi.org/10.18196/jrc.25111

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Journal of Robotics and Control (JRC)

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