Authors :
Karren Manase; Rachael Chikoore; Calving P. Mugauri
Volume/Issue :
Volume 9 - 2024, Issue 7 - July
Google Scholar :
https://tinyurl.com/mvjbawrc
Scribd :
https://tinyurl.com/2xyvswsp
DOI :
https://doi.org/10.38124/ijisrt/IJISRT24JUL817
Abstract :
Quelea birds are small but highly intrusive
birds that have become a menace in small grain farms.
Previous researches has it that their extreme coordinated
and destructive feeding behaviors can result in substantial
crop and financials losses for small grain farmers in
Zimbabwe, mostly commercial wheat farmers.
Traditional methods of deterring and controlling the
quelea birds’ population such as catch and consume have
proven to be labour intensive, time consuming as well as
costly. Some Zimbabwean wheat farmers leveraged on
drone technology to scare and control the birds’
population through chemical control but these proved to
be environmentally unfriendly as the chemicals might end
up negatively affecting the ecosystem of the surrounding
environment. The research is centered on the
development of an IoT based virtual fence system to deter
invasion and control quelea birds’ population using
automated nets. The researcher aims to deliver an
understanding of how innovative technologies such as
virtual fencing, IOT and automated nets can be leveraged
to address agricultural challenges caused by quelea birds
to wheat farmers in Zimbabwe. The system comprises a
network of linked sensors that form a virtual boundary to
detect an invasion, automated nets, buzzer to deter flock
and wireless network technology to send data to a central
or cloud storage for future analysis and further
development of the system. Ultrasonic sensors, ESP32
Microcontroller and wireless network technology were
used in the development of the model. The IoT based
virtual fence system to deter and control quelea birds’
population provides a cost effective, efficient and
environmentally friendly solution to the quelea birds’
menace in wheat farms and ensuring food security for the
country.
Keywords :
Quelea Birds; Virtual Fence; Automated; Population; Insert Agriculture, Ultrasonic Sensors.
References :
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- Faunalytics, “Virtual Fences In Conservation,” Faunalytics, 2016. [Online]. Available: https://faunalytics.org/virtual-fences-conservation/#:~:text=The virtual fencing system that seems to offer,that they can remove animals from restricted areas. [Accessed: 25-Oct-2023].
- C. Walters, “Choosing The Right Size Radar To See Birds,” Know More Stuff, 28-Dec-2022.
- “Quelea quelea (weaver bird),” CABI Digital Library, 2021. [Online]. Available: https://www.cabidigitallibrary.org/doi/10.1079/cabicompendium.66441. [Accessed: 20-Oct-2023].
- G. Ntuli, “The Tomorrow War - Controlling Quelea Swarms and Ultimately Africa’s Future,” 2022.
- S. Tsiko, “Quelea bird menace: A threat to eraly maturity crops,” The Herald Zimbabwe, Harare, 12-Jul-2022.
- E. Manguwo, “Be on the Lookout for Quelea Birds Farmers Urged,” The Herald Zimbabwe, Harare, 16-Jun-2023.
- Sifelani Tsiko, “Zimbabwe Intensifies efforts to contain Quelea Birds,” The Herald Zimbabwe, Harare, 23-Feb-2023.
- Z. (The Herald, “Lets go beyong just exterminating quelea birds,” The Herald Zimbabwe, Harare, 19-Jul-2023.
- Karanganda, “Kubatwa Kwengozha,” Zimbabwe, 2021.
- E. ELIA and K. SHANISHA, “DESIGN AND IMPLEMENTATION OF A BIRD CONTROL SYSTEM FOR RICE FARMERS USING BIRD DISTRESS SOUND,” MBARARA UNIVERSITY OF SCIENCE AND TECHNOLOGY, 2023.
- T. Chigonda, “Protected areas and community costs: A comparative study of cases from Zimbabwe,” 2017.
- [13] J. W. De Grazio, “Vertebrate Damage Control Research - Quelea Bird Problems in African Agriculture,” 1973.
- R. R. Megan Verdon, Adam Langworthy, “Virtual fencing technology to intensively graze lactating dairy cattle. II: Effects on cow welfare and behavioritle,” J. Dairy Sci., vol. 104, no. 6, pp. 7084–7094, 2021.
- Srinidhi Kulkarni et al., “IoT – Wildlife Monitoring , Virtual Fencing with Deforestation Notifications,” Int. Res. J. Eng. Technol. , vol. 6, no. 02, pp. 1837–1840, Feb. 2019.
- C. Mpala, P. Sibanda, M. Dlamini, and B. Sibanda, “Are quelea birds really a menace? Innovative use of indigenous knowledge systems in the harvesting and utilisation of quelea, Quelea quelea lathamii. in Hwange District of Matabeleland North Province,” Glob. J. Agric. Res., vol. 2, no. 2, pp. 71–081, 2014.
- M. J.-R. Paula Rivadeneira, Sara Kross, Nora Navarro-Gonzalez, “A Review of Bird Deterrents Used in Agriculture,” in Proc. 28th Vertebr. Pest Conf, 2018, pp. 218–223.
- D. Brier, C. R. Eastwood, and B. Dela Rue, “Foresighting for Responsible Innovation Using a Delphi Approach: A Case Study of Virtual Fencing Innovation in Cattle Farming,” J. Agric. Environ. Ethics, 2020.
- R. S. J. J. M. D. S. Jachowski, “Good virtual fences make good neighbors: opportunitiesfor conservation,” Anim. Conserv., vol. 17, no. 3, pp. 187–196, 2014.
- P. Pavan, S. Amol, and T. Kiran, “Scaring of Birds in Agriculture Field Using Iot,” Int. Res. J. Mod. Eng. Technol. Sci. @International Res. J. Mod. Eng., no. 1, pp. 2582–5208, 2020.
- R. Riya, V. KR, S. Sonamsi, and D. Jain, “Automated Bird Detection and Repeller System Using IOT Devices: An Insight from Indian Agriculture Perspective,” SSRN Electron. J., pp. 3–5, 2020.
- Theseus Shambare, “Ne Technology to tame Zim’s most hated birds,” The Sunday Mail, Harare, 11-Jun-2023.
Quelea birds are small but highly intrusive
birds that have become a menace in small grain farms.
Previous researches has it that their extreme coordinated
and destructive feeding behaviors can result in substantial
crop and financials losses for small grain farmers in
Zimbabwe, mostly commercial wheat farmers.
Traditional methods of deterring and controlling the
quelea birds’ population such as catch and consume have
proven to be labour intensive, time consuming as well as
costly. Some Zimbabwean wheat farmers leveraged on
drone technology to scare and control the birds’
population through chemical control but these proved to
be environmentally unfriendly as the chemicals might end
up negatively affecting the ecosystem of the surrounding
environment. The research is centered on the
development of an IoT based virtual fence system to deter
invasion and control quelea birds’ population using
automated nets. The researcher aims to deliver an
understanding of how innovative technologies such as
virtual fencing, IOT and automated nets can be leveraged
to address agricultural challenges caused by quelea birds
to wheat farmers in Zimbabwe. The system comprises a
network of linked sensors that form a virtual boundary to
detect an invasion, automated nets, buzzer to deter flock
and wireless network technology to send data to a central
or cloud storage for future analysis and further
development of the system. Ultrasonic sensors, ESP32
Microcontroller and wireless network technology were
used in the development of the model. The IoT based
virtual fence system to deter and control quelea birds’
population provides a cost effective, efficient and
environmentally friendly solution to the quelea birds’
menace in wheat farms and ensuring food security for the
country.
Keywords :
Quelea Birds; Virtual Fence; Automated; Population; Insert Agriculture, Ultrasonic Sensors.