This paper presents the development work for integrating an Internet of Things (IoT) with a fibrous capillary irrigation system based on the climatic demand estimated by the weather condition. The monitoring and control using an IoT system is critical for such application that is targeted for precision irrigation. The fibrous capillary irrigation system is managed by manipulating a water supply depth using the potential evapotranspiration (ETo). A soil mositure sensor was used to monitor the progress of the root water uptake and input the fuzzy logic system, to determine the water requirements for the crop medium. Experiment was conducted by using a Choy sum plant as the test crop grown in a greenhouse. The monitoring of the demand and management of the watering system was successful. The ETo data was able to approximate the crop water requirement in near real time.
This paper discusses the prospect of utilization of solar energy for aquaponics operation. Aquaponic is a platform for farmers to simultaneously grow fish and plants in a same unit. It is sustainable and produces little waste. The need of pumps for continuous water recirculation and air supply within the system could be a hindrance in the aquaponics operation especially if the unit is nowhere near any power outlet. It is indeed a visible solution as Malaysia located at equator and receives average sunlight ~9 hours a day throughout the year with solar intensity as high as 1800-1900 kWh/m2. The work presents detail equipment for establishment of suitable solar PV system for aquaponics operation and reviews utilities of aquaponics platform that can be supported using solar energy. Possible integration of Internet-of-Things (IoT) for remote monitoring of such solar operated aquaponics unit is also discussed. Analysis showed that even when operated with full energy supply for only 12 hours, the yield and growth rates of the crop and fish grown in the system powered remains unaffected. This signified the potential for the use of solar energy as alternative energy for operation of the aquaponics unit. The main advantage perhaps is the realization of aquaponics setup in remote area where electricity is not accessible. Installation cost may be relatively high (100W PV system could cost nearly RM 600 for installation) but for a long run, it is highly beneficial as utility cost and cost for installing the national grid can be significantly reduced. Summarizing, the project introduced the concept of smart farming via aquaponics for a sustainable production of crop and fish using a renewable and clean solar energy for its operation.
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