The Ministry of DES has recommended farmers employ more drones for a new Thailand smart farm project in Pathum Thani Province’s Pin Fah Farm region. Pinfah Farm is an intelligent farm model in Pathum Thani Province designated for agricultural eco-tourism.
Pinfah Farm employs drones to spray medications, fertiliser, and various chemicals in farmlands to reduce money and improve farmer health. Chaiwut Thanakmanusorn, Minister of Digital Economy and Society, paid a visit to the new farm and provided financial assistance.
The government allows farmers to pay half of their needs under the “half of each person” programme. The remainder of the fund will be used to assist individuals in purchasing at a reduced price to develop modern agriculture more efficiently. The financial assistance is provided in collaboration with community enterprises or farmer organisations to create a smart farm using digital agriculture technology.
Smart agriculture is a cutting-edge idea that is gaining traction around the world. It boosts output, addresses farm-related issues such as food demand, and makes farms more networked and intelligent. Precision farming, variable rate technologies, smart irrigation, and smart greenhouses are smart agriculture systems that leverage the Internet of Things (IoT).
Thailand Prime Minister General Prayut Chan-o-cha recently visited the development of the “Digital Agriculture” pilot project at Pha Mi Training Centre in Chiang Rai Province. To expand digitalisation in agriculture, smart agriculture also employed the Government Central Cloud System (GDCC) platform and 5G network.
The Pha Mi Training Centre is an education, research, and development institution for high-value commodities, including vanilla and orchid, which are among the world’s top five most lucrative products. The centre will also increase farmers’ awareness of the region and provide long-term job options. Finally, the initiative attempts to boost farm revenue and eliminate farmer poverty.
The creation of the Cloud GDCC system facilitates the integration of IoT Smart farm technologies and Big Data storage in Thailand’s agriculture sector. The cloud system is designed to support the future growth of Thai farmers and other experimental plants.
Aquaculture sectors are also included in the agricultural digitalisation initiative. The Thai government was undertaking Aquaculture 4.0 to secure the long-term growth of this essential industry and increase farmers’ sustainable farming capabilities. The Aqua-IoT is an Internet of Things-based monitoring system for water’s physical, chemical, and biological properties.
They combined critical data – physical, chemical, and biological water characteristics and weather – into a single interface that enables users to comprehend the link between the data, analyse it, and make informed decisions.
Nonetheless, the Philippines has made a comparable effort. The Department of Agriculture-Bureau of Agricultural and Fisheries Engineering (DA-BAFE) visited the nation’s first established innovative greenhouse project to enhance the widespread application of smart agriculture.
The smart greenhouse is a significant advancement in precision farming. It employs sensor technologies to generate a microclimate that allows plants to develop consistently. An intelligent greenhouse modifies the environment autonomously to help plants grow to their full potential. This innovative farming method provides farmers with higher yields, higher-quality products, and the ability to cultivate crops regularly all year. This satisfies the market’s requirement for food efficiency and sufficiency.
While in Indonesia, Minister of Agriculture Syahrul Yasin Limpo urged the adoption of precision technology to boost the resilience of Indonesian cattle products and to meet domestic demands constantly. It is believed that the technology will increase the food production rate for commodities such as cattle, buffalo, purebred chicken, free-range chicken, lamb/goat, duck, and pork.
Syahrul advises strengthening regional and central government cooperation and synergy to conserve present output and increase the resilience of Indonesian cattle products. Job division and work obligations within each work unit. He suggests that the tasks of each division be specified to determine the next steps.