Abstract
Urban farming is popularly accepted by communities living in cities as they are more health-conscious and to help support the high cost of living. Unfortunately, farming takes a considerable amount of time specially to monitor the plant’s growth. Therefore, smart farming using Internet of Things (IoT) should be adopted to realize urban farming. In this study, two IoT-based smart farming system designs for personal usages in a residential apartment were proposed and evaluated. As the design was meant for beginners, two utmost parameters for maintaining plant growth was evaluated, that are humidity and temperature. The humidity and temperature readings of design A using DHT 11 sensor and design B using DHT 22 sensor were recorded for 3 days and were compared against the actual humidity and temperature of the environment. After comparing the sum of absolute difference (SAD) of both designs, the implementation costs, and the consumption power, there is an inconclusive finding in terms of accuracy and costs. However, the basic design and cost of implementing a personal IoT-based smart farming system were proposed. The factors to be considered in constructing a personal smart farming system were also described.
Highlights
Smart farming is a subset of smart agriculture intended to encourage communities especially in cities to do farming in their own residential areas as the preferred means of a more environmentally friendly form of food production [1]
In this paper, we evaluated the costs and accuracy of two Internet of Things (IoT)-based personal smart farming system based on the reading of temperature and humidity
The costs of setting up the basic IoT platform was between MYR 60.00 to MYR 70.00
Summary
Smart farming is a subset of smart agriculture intended to encourage communities especially in cities to do farming in their own residential areas as the preferred means of a more environmentally friendly form of food production [1]. There are many techniques of farming in a city that include raised bed, container gardens, hydroponics, aeroponics [2], fertigation, rooftop, vertical farming, and aquaponics. Hydroponics, fertigation, aeroponics and aquaponics are types of soil less agriculture [3]. Even though these technologies showed positive potentials in agriculture, the high initial cost and the technical operational requirements [4] hinder the adoption of these technologies by individuals. Vertical and rooftop farming require big investments and are more appropriate for landscape purposes or medium scale building owners [5]. Individuals and families living in residential apartments commonly used container gardens for small-scale farming
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