LabVIEW BASED TEMPERATURE CONTROL SYSTEM FOR NEONATAL INCUBATOR

Year 2020, Volume: 1 Issue: 1, 20 - 26, 03.11.2020

Zaid Al-sawaff Yahya Z. Yahya Fatma Kandemirli

Abstract

This system used to monitor and control the sudden change in temperature in neonatal incubator depending on two parts: first is the microcontroller which is a compact integrated circuit designed to run a specific operation in an embedded system, and LabVIEW which is engineering software used for applications that require test, measurement, and control with rapid access to hardware and data insights. those two important parts along with other components (heaters, fans, data acquisition cards) will be used to design the desired system.
This system has the properties of being cheap, easy to use, able to deal with many units as possible at the same time and finally can be operated automatically or by one person. this system will give a temporary solution for a period of time till the responsible person would fix the main problem.

Keywords

Neonatal Incubator, LabVIEW, Microcontroller, Temperature control system, Embedded system

References

• [1] M. O. F. Health, “Ministry of Health Neonatal Care Clinical Guidelines,” 2018.
• [2] P. McDougall and R. Hunt, “Neonatal Conditions,” Paediatr. Handb. Eighth Ed., pp. 431–451, 2009.
• [3] Z. H. Al-Sawaff, Y. Z. Yahya, and F. Kandemirli, “Neonatal Incubator Embedded Temperature Observation and Monitoring Using GSM,” J. Eng. Res. Reports, vol. 4, no. 1, pp. 1–9, 2019.
• [4] O. H. Jimmoh, S. Adedayo, O. S. Enemakwu, and I. N. Ajibola, “Microcontroller-Based Remote Temperature Monitoring System,” IOSR J. Comput. Eng., vol. 18, no. 04, pp. 68–72, 2016.
• [5] F. Peeters, M. Peetermans, and L. Indesteege, “Temperature Sensors,” Mod. Sensors Handb., pp. 347–393, 2010.
• [6] H. B. D. L. Mathew, Ashish Gupta, “Controlling of Temperature and Humidity for an Infant Incubator Using Microcontroller,” Int. J. Adv. Res. Electr. Electron. Instrum. Eng., vol. 04, no. 06, pp. 4975–4982, 2015.
• [7] T. A. Tisa, Z. A. Nisha, and M. A. Kiber, “Design of an Enhanced Temperature Control System for Neonatal Incubator,” Bangladesh J. Med. Phys., vol. 5, no. 1, pp. 53–61, 2013.
• [8] Manual, U. (2011). User Manual. Springer Reference, (320999).
• [9] H. B. D. L. Mathew, Ashish Gupta, “Controlling of Temperature and Humidity for an Infant Incubator Using Microcontroller,” Int. J. Adv. Res. Electr. Electron. Instrum. Eng., vol. 04, no. 06, pp. 4975–4982, 2015.
• [10] N. Elsheikh and B. Mohammed, “Design and Development of Microcontroller Based Temperature and Humidity Controller for Infant Incubator OK,” vol. 2, no. July, pp. 78–89, 2011.
• [11] T. K. Ferris and M. M. Shepley, “The design of neonatal incubators: A systems-oriented, human-centered approach,” J. Perinatol., vol. 33, no. SUPPL. 1, pp. S24–S31, 2013.
• [12] D. Ibrahim, “Introduction to Microcontrollers and Display Systems,” Using LEDs, LCDs GLCDs Microcontroller Proj., no. July 2017, pp. 1–16, 2012.
• [13] M. M. Mijwel, “What is Arduino Programming,” no. March, 2018.
• [14] A. Nayyar, “An Encyclopedia Coverage of Compiler’s, Programmer’s & Simulator’s for 8051, PIC, AVR, ARM, Arduino Embedded Technologies,” Int. J. Reconfigurable Embed. Syst., vol. 5, no. 1, p. 18, 2016.
• [15] M. L. Higa, D. M. Tawy, and S. M. Lord, “An introduction to labview exercise for an electronics class,” Proc. - Front. Educ. Conf., vol. 1, no. February 2002, 2002.
• [16] J. Kang, F. She, F. Yang, and T. Wang, “Design of instrument control system based on LabView,” Proc. - 2011 7th Int. Conf. Comput. Intell. Secur. CIS 2011, vol. 11, no. 6, pp. 1479–1483, 2011.
• [17] B. Oyebola, “Development of a Microcontroller Based Temperature and Humidity Controller for Infant Incubator,” J. Ind. Technol., vol. 2, no. January, pp. 78–89, 2017.
• [18] M. Suruthi and S. Suma, “Microcontroller Based Baby Incubator Using Sensors,” pp. 12037–12044, 2015.
• [19] T. Murugan, A. Periasamy, and S. Muruganand, “Embedded based Industrial Temperature Monitoring Systems using GSM,” Int. J. Comput. Appl., vol. 58, no. 19, pp. 6–11, 2012.