iipp publishingJournal of Applied Engineering Science

DESIGN AND IMPLEMENTATION OF A SMART HOME AUTOMATION SYSTEM BASED ON GLOBAL SYSTEM FOR MOBILE COMMUNICATIONS


DOI: 10.5937/jaes16-18830
This is an open access article distributed under the CC BY-NC-ND 4.0 terms and conditions. 
Creative Commons License

Volume 16 article 555 pages: 471 - 479

Mohanad Ghazi Khamees*
Al-Farabi University College, Iraq

Omar Al-Mukhtar Tawfeeq
Al-Mamoon University College, Iraq

Omar Al-Mukhtar Tawfeeq
University of Information Technology and Communication, Iraq

Recently, there has been an increasing advancement in the communications technology, and due to the increment in using the cellphone applications in the diverse aspects of life, it became possible to automate home appliances, which is the desired goal from residences worldwide, since that provides lots of comfort by knowing that their appliances are working in their highest efficiency whenever it is required without their knowledge, and it also allows them to control the devices when they are away from home, including turning them on or off whenever required. The design and implementation of this system is carried out by using the Global System of Mobile communications (GSM) technique to control the home appliances – In this work, an electric fan is used, and a sounding buzzer is used as well – and that is through the utilization of Short Message Services (SMS). Besides that, an Arduino board has been integrated with a number of sensors such as a motion sensor, a temperature sensor, and a screen for displaying required information to the user which indicates whatever the system is doing, where this data includes the state of appliances, where the Arduino board can control the home appliances through the relay board that accepts low power signals, and based upon them, it activates high power devices.

View article

1. Shubham Magar, Varsha Saste, (2017)  Smart Home Automation By Gsm Using Android Application. International Conference On Information, Communication & Embedded Systems (ICICES 2017).

2. Kok Wai Chan, Rozita Teymourzadeh, (2013) Smart GSM based Home Automation System. IEEE Conference on Systems, Process & Control (ICSPC2013) , Kuala Lumpur, Malaysia, 13 - 15 December 2013.

3. Marimuthu Ramakrishnan, Bala Murugan, (2016) Home automation using bluetooth: a review. ARPN Journal of Engineering and Applied Sciences, VOL. 11, NO. 21, NOVEMBER 2016.

4. S. Benjamin Arul, (2014) Wireless Home Automation System Using Zigbee. International Journal of Scientific & Engineering Research, Volume 5, Issue 12, December 2014.

5. Mahesh N. Jivani, (2014) GSM Based Home Automation System Using App-Inventor for Android Mobile Phone. International Journal of Advanced Research in Electrical, Electronics and Instrumentation Engineering, Vol. 3, Issue 9, September 2014.

6. M. S. Khandare and A. Mahajan, (2013) Mobile Monitoring System for Smart Home. in Proc. 2010 3rd International Conference on Emerging Trends in Engineering and Technology (ICETET), Goa, pp.848 – 852.

7. G. Gu and G. Peng, (2010) The survey of GSM wireless communication system. in Proc. 2010 International Conference on Computer and Information Application (ICCIA), Tianjin, pp.121 – 124.

8. G. Mingming, Shaoliangshan, Huixiaowei, and Sunqingwei, (2010) The System of Wireless Smart House Based on GSM and ZigBee. in Proc. 2010 International Conference on Intelligent Computation Technology and Automation (ICICTA), Changsha, pp.1017 – 1020.

9. Microchip Technology Inc. http://www.microchip.com/wwwproducts/ATmega328p

10. Arduino Computing platform “Arduino UNO Rev. 3”  https://store.arduino.cc/usa/arduino-uno-rev3

11. SIMCom Wireless Solutions Co., Ltd, Shanghai City, China “SIM800 Introduction”  http://simcomm2m.com/En/module/detail.aspx?id=138

12. Adafruit Industries Ltd, USA, New York, “PIR motion sensor overview” https://learn.adafruit.com/pir-passive-infrared-proximity-motion-sensor?view=all

13. National Semiconductor Corporation, California, USA, “LM35 Precision Centigrade Temperature Sensors”, November 2000.

14. MikroElektronika, Belgrade, Serbia, “RELAY click™ board”,  https://www.mikroe.com/relay-click