Please use this identifier to cite or link to this item: http://ir.futminna.edu.ng:8080/jspui/handle/123456789/18416
Title: Development of IoT Cloud-based Platform for Smart Farming in the Sub saharan Africa with Implementation of Smart-irrigation as Test-Case
Authors: Okoh, Supreme Ayewoh
Salihu, Bala
Onwuka, Elizebeth
Suleiman, Zubair
Keywords: Smart Farming
Sub-Saharan Africa.
Smart Irrigation
Cloud-based Platform
IoT
Issue Date: Apr-2023
Publisher: International Journal of Information Technology and Computer Science
Abstract: UN Department of Economics and Social Affairs predicted that the world population will increase by 2 billion in 2050 with over 50% from the Sub-Saharan Africa (SSA). Considering the level of poverty and food insecurity in the region, there is an urgent need for a sustainable increase in agricultural produce. However, farming approach in the region is primarily traditional. Traditional farming is characterized by high labor costs, low production, and under/oversupply of farm inputs. All these factors make farming unappealing to many. The use of digital technologies such as broadband, Internet of Things (IoT), Cloud computing, and Big Data Analytics promise improved returns on agricultural investments and could make farming appealing even to the youth. However, initial cost of smart farming could be high. Therefore, development of a dedicated IoT cloud-based platform is imperative. Then farmers could subscribe and have their farms managed on the platform. It should be noted that majority of farmers in SSA are smallholders who are poor, uneducated, and live in rural areas but produce about 80% of the food. They majorly use 2G phones, which are not internet enabled. These peculiarities must be factored into the design of any functional IoT platform that would serve this group. This paper presents the development of such a platform, which was tested with smart irrigation of maize crops in a testbed. Besides the convenience provided by the smart system, it recorded irrigation water saving of over 36% compared to the control method which demonstrates how irrigation is done traditionally.
URI: http://repository.futminna.edu.ng:8080/jspui/handle/123456789/18416
Appears in Collections:Telecommunication Engineering



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