ABOUT US
A self taught grower who practices Regenerative Agriculture 6 concept & making natural farming inputs with ultra low costs materials from household & farm.
Past experiences from petrolchemical & energy sectors instill a technical approach towards an out-of-the-box methods of natural farming with marriage of quicker formulations from both the organic & inorganic sciences.
Inspired by similar pioneers in the likes of Dr. Elaine Ingram, John Kempf, Dr. Tom Dykstra, Gabe Brown, Chris Trump, Dr. Nicole Masters, JADAM Youngsan Cho, KnF Master Cho Senior, Sifu Lim, Durian Monthong Tani Fauzan, The Kebun etc, provided an overall macro fish-eye observation analysis into our own unique standards of growing crops.
OUR ACHIEVEMENTS
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Planted various type of fruits range from guava, durian, papaya, etc
Revenue from the guava plantation expected revenue for 2024
All methods of maintaining and sustaining the farm are via own recipes of soil preparation
Future collaboration with farmers, fruit distributor, fruit seller and also export partners
OUR MISSION
Innovative farming solutions leverage technology to help farmers achieve higher yields. These advancements enhance productivity, boost income, and safeguard natural resources. Our smart farming solutions feature a user-friendly dashboard that presents comprehensive data, allowing farmers to monitor their assets and livestock effectively. This enables timely responses to alerts and provides access to information from connected smart devices.
Soil Moisture Sensors: These sensors are placed in the soil to monitor moisture levels and ensure crops are receiving the right amount of water. This prevents over-irrigation or under-irrigation, saving water and increasing crop yield.
Nutrient and pH Sensors: These devices monitor soil nutrients and pH levels, providing real-time data to farmers so they can adjust fertilization and other inputs, optimizing the soil for crop growth.
Drones: Equipped with cameras and sensors, drones survey large areas of farmland, capturing data on crop health, soil conditions, and even identifying pest infestations. This allows farmers to take targeted actions, such as applying fertilizers or pesticides precisely where they are needed.
Satellite Imaging: Satellite data can track weather patterns, soil health, and crop conditions on a macro level, giving farmers valuable insights into large-scale operations.
Smart Irrigation: IoT-based irrigation systems automatically adjust water delivery based on real-time data from soil moisture sensors and weather forecasts. This can be controlled remotely via smartphones or tablets, making it easier for farmers to manage water use efficiently, even from afar.
Farm Management Platforms: IoT sensors feed data into centralized platforms where AI analyzes patterns, providing predictive analytics to help farmers make better decisions. For example, predictive models might suggest the best time to plant or harvest based on past weather patterns.
Yield Prediction: By combining real-time sensor data with historical data, farmers can predict crop yields more accurately, optimizing the supply chain and market planning.
IoT in smart farming integrates technology such as sensors, automated systems, and data analytics to improve agricultural efficiency. Key uses include soil and crop monitoring, where sensors measure soil moisture, temperature, and nutrients in real-time to optimize irrigation and fertilization. Livestock monitoring uses IoT devices to track animal health and location, while environmental sensors provide climate data for better decision-making. Automated machinery and drones further enhance productivity by automating tasks and monitoring crop health from the air. Overall, IoT helps farmers reduce costs, improve yields, and use resources efficiently.