Acta Scientific Computer Sciences

Research Article Volume 4 Issue 7

i-MOS: Smart Mosquito Repellent System

Wan Aezwani Wan Abu Bakar1*, Mustafa Man2, Mohd Kamir Yusof3 and Lim Chee Hwa4

1Pusat Asasi Sains dan Perubatan UniSZA, Universiti Sultan Zainal Abidin, Kampus Gong Badak, Terengganu, Malaysia
2Fakulti Teknologi Kejuruteraan Maritim dan Informatik, Universiti Malaysia Terengganu, Terengganu, Malaysia
3Fakulti Informatik dan Komputeran, Universiti Sultan Zainal Abidin, Terengganu, Malaysia
4One Team Network Sdn. Bhd., Selangor, Malaysia

*Corresponding Author: Wan Aezwani Wan Abu Bakar, Pusat Asasi Sains dan Perubatan UniSZA, Universiti Sultan Zainal Abidin, Kampus Gong Badak, Terengganu, Malaysia.

Received: June 03, 2022; Published: June 17, 2022

Reprints View PDF Related Articles

Abstract

Dengue is a global issue that continues to be the highest global mortality contributor. A vast effort by medical or research institutions are still ongoing in investigating for scientific cure and treatment, especially in formulating new vaccine or new formulation for vector control to reduce the number of death cases that caused by dengue disease. In response to present scenario, this paper introduces a system tool called as i-MOS, an intelligent Mosquito Spray Dispenser system. The i-MOS is blended with Innovative Revolution 4.0 (IR4.0) through the automation of data controlling and monitoring from cloud computing infrastructure. The i-MOS acts both as the system device and system tools to monitor on the mosquito spray, named as X’MOS. Thus, the i-MOS system displays the data of spray interval of X’MOS, the volume of X’MOS remains after each spray and the total of battery capacity status (in volts). The data is controlled and monitored remotely through the optimizations of direct Wi-Fi module ESP8266 technology. While the i-MOS device is installed with X’MOS spray, the mini aerosol repellent, the battery and the sensor attached to the i-MOS circuit board for an effective environmental-friendly Aedes mosquito spray control. This embedded system encapsulates a free zone of mosquito for your home outlets. The experimentation results show both the device and system run smoothly to update the data of X’MOS spray level and battery consumption status.


Keywords: Dengue; Mosquito; Dispenser; i-MOS Device; X’MOS Spray

References

  1. Prasad P Rajendra., et al. "An Efficient E-Health Monitoring with Smart Dispensing System for Remote Areas”. 2018 3rd IEEE International Conference on Recent Trends in Electronics, Information and Communication Technology (RTEICT). IEEE (2018).
  2. Kumar K Anil and D. Aju. "An Internet of Thing based Agribot (IOT-Agribot) for precision agriculture and farm monitoring”. International Journal of Education and Management Engineering 4 (2020): 33-39.
  3. Krishna K Lokesh., et al. "Internet of Things application for implementation of smart agriculture system”. 2017 International Conference on I-SMAC (IoT in Social, Mobile, Analytics and Cloud) (I-SMAC). IEEE, (2017).
  4. Kumar R and M Pallikonda Rajasekaran. "An IoT based patient monitoring system using raspberry Pi”. 2016 International Conference on Computing Technologies and Intelligent Data Engineering (ICCTIDE'16). IEEE, (2016).
  5. Gunawan Teddy Surya., et al. "Performance evaluation of smart home system using internet of things”. International Journal of Electrical and Computer Engineering1 (2018): 400.
  6. Koo Dan D., et al. "An Internet-of-Things (IoT) system development and implementation for bathroom safety enhancement”. Procedia Engineering145 (2016): 396-403.
  7. Man Mustafa W A W A Bakar and A Razak MAB. "MUS-Tracker: An IoT based system in controlling and monitoring of beehives”. International Journal of Emerging Trends in Engineering Research 6 (2020).
  8. Bakar Wan Aezwani Wan Abu., et al. "iMHS: An IOT Embedded for Aedes Mosquito Home System”. (2020).
  9. Man Mustafa., et al. "Dengue innovation: a sustainability approach for preventing and controlling of dengue diseases outbreaks via IoT technology”. IOP Conference Series: Materials Science and Engineering 769.1 (2020).
  10. Man Mustafa W A B W A Bakar and M Noor MIHB. "ITDS: An intelligent tissue dispenser system”. International Journal of Recent Technology and Engineering3 (2019): 2613-2619.
  11. Singh Himanshu., et al. "IoT based smart home automation system using sensor node”. 2018 4th International Conference on Recent Advances in Information Technology (RAIT). IEEE (2018).
  12. Ayadi Noura., et al. "Identification and development of a real-time motion control for a mobile robot's DC gear motor”. International Journal of Computer Applications in Technology1 (2017): 61-69.
  13. Wang Zhongqiang., et al. "A 2-transistor/1-resistor artificial synapse capable of communication and stochastic learning in neuromorphic systems”. Frontiers in neuroscience8 (2015): 438.
  14. Liu S., et al. "Lithium-ion Battery Cathode Material Li~ 3V~ 2 (PO~ 4)~ 3: Synthesis by Sol-gel Procedure and Performance Studies”. Chinese Journal of Inorganic Chemistry6 (2006): 1067.
  15. Yusof Mohd Kamir and Mustafa Man. "Efficiency of JSON for data retrieval in big data”. Indonesian Journal of Electrical Engineering and Computer Science1 (2017): 250-262.
  16. Man Mustafa., et al. "Mining association rules: A case study on benchmark dense data”. Indonesian Journal of Electrical Engineering and Computer Science3 (2016): 546-553.

Citation

Citation: Wan Aezwani Wan Abu Bakar., et al. “i-MOS: Smart Mosquito Repellent System". Acta Scientific Computer Sciences 4.7 (2022): 48-54.

Copyright

Copyright: © 2022 Wan Aezwani Wan Abu Bakar., et al. This is an open-access article distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are credited.




Metrics

Acceptance rate35%
Acceptance to publication20-30 days

Indexed In




News and Events


  • Certification for Review
    Acta Scientific certifies the Editors/reviewers for their review done towards the assigned articles of the respective journals.
  • Submission Timeline for Upcoming Issue
    The last date for submission of articles for regular Issues is December 25, 2024.
  • Publication Certificate
    Authors will be issued a "Publication Certificate" as a mark of appreciation for publishing their work.
  • Best Article of the Issue
    The Editors will elect one Best Article after each issue release. The authors of this article will be provided with a certificate of "Best Article of the Issue"

Contact US





+91 9182824667

     info@acta-scientific.com

Creative Commons License Open Access by Acta Scientific is licensed under a Creative Commons Attribution 4.0 International License
Based on a work at https://actascientific.com

ff

Acta-Publications

ff

© 2021 Acta Scientific, All rights reserved.