Facing multiple challenges such as global population growth, climate change and water shortage, smart agriculture has become the inevitable way to ensure food security. As the “nerve endings” of smart agriculture, intelligent soil sensors provide scientific decision-making basis for agricultural production through real-time and precise soil data collection, and help achieve the precision, intelligence and sustainable development of agriculture.
The predicaments faced by traditional agricultural management
Current pain points in agricultural production:
• Strong reliance on experience: Relying on traditional experience for fertilization and irrigation, lacking data support
• Severe waste of resources: The utilization rate of water and fertilizer is only 30% to 40%, resulting in serious waste
• Soil ecological degradation: Excessive fertilization and irrigation lead to soil compaction and salinization
• Environmental pollution risk: Fertilizer leaching causes non-point source pollution, affecting the ecological environment
• Unstable quality and yield: The imbalance in water and fertilizer supply leads to fluctuations in yield and quality
Technological breakthroughs in intelligent soil sensors
By adopting Internet of Things (iot) and big data technologies, real-time perception and intelligent analysis of soil data are achieved
• Multi-parameter synchronous monitoring: Integrated monitoring of multiple parameters such as soil moisture, temperature, EC, pH, nitrogen, phosphorus and potassium
• Dynamic profile monitoring: Simultaneous monitoring at multiple depths of 20cm, 40cm, and 60cm to comprehensively grasp the root growth environment
• Wireless low-power transmission: Multiple transmission methods including 4G, NB-IoT and LoRa, solar power supply, and continuous operation for 3 to 5 years
Demonstration of practical application effects
Field crops (wheat, corn, rice)
• Water and fertilizer conservation: Save 30% to 50% of water and 25% to 40% of fertilizer
• Increased production and improved quality: Output increased by 15% to 25%, and quality significantly improved
• Reduced pesticide use for increased efficiency: Pests and diseases are reduced by 30%, and pesticide usage is decreased by 25%
Cash crops (fruit trees, vegetables, tea)
• Precise water and fertilizer supply: Water and fertilizer are supplied as needed, and the consistency of product quality is improved
• Cost reduction and income increase: Save 200 to 300 yuan in labor costs per mu and increase income by 1,000 to 2,000 yuan
• Brand Enhancement: Standardized production facilitates the construction of agricultural product brands
Digital Agriculture Platform
• Full traceability: Data records throughout the production process ensure the traceability of agricultural products
• Disaster Warning: Early warning of disasters such as drought, waterlogging and frost damage
• Scientific decision-making: Optimize agricultural operations based on data to enhance management efficiency
Apply fertilizer precisely to avoid waste
Application scenarios of intelligent agriculture
Precision irrigation system
Start or stop irrigation based on soil moisture conditions
• Supply water precisely in accordance with the water requirements of crops
• Remote control via mobile phone, one-click irrigation
Integrated water and fertilizer system
Apply fertilizers precisely based on the nutrient status of the soil
• Coordinated regulation of water and fertilizer to enhance utilization efficiency
Reduce nutrient leaching and protect the environment
Intelligent greenhouse system
Prevent the occurrence of pests and diseases
Optimize the growth environment of crops
Precise management of large fields
Generate soil nutrient data graphs
• Achieve precision agricultural management
Customer empirical evidence
After installing the soil sensor, our water and fertilizer usage decreased by 40%, but the yield and quality of the grapes actually improved. The sugar content increased by 2 degrees, and the income per mu increased by 3,000 yuan. — The person in charge of a certain vineyard in Italy
Through precise irrigation, 5,000 mu of wheat can save 300,000 tons of water, 50 tons of fertilizer and increase production by 1 million jin each year, truly achieving a win-win situation of water conservation and increased production. — American farmer
System advantages and features
1. Precise monitoring: Utilizing advanced sensing technology, the measurement is accurate and reliable
2. Durable and long-lasting: Industrial-grade design, anti-corrosion, and strong weather resistance
3. Smart and convenient: Remote monitoring via mobile APP, real-time data viewing
4. Scientific Decision-making: Generate agricultural suggestions based on data to reduce the difficulty of decision-making
5. High return on investment: The cost is generally recovered within 1-2 years, with significant economic benefits
It has a wide range of applicable objects
• Large-scale farms: Achieve large-scale precision agricultural management
• Cooperatives: Enhance the level of standardized production and strengthen market competitiveness
• Agricultural Park: Creating a benchmark for smart agriculture and showcasing modern agricultural technology
• Family farm: Reduce production costs and increase planting benefits
• Research institutions and universities: An ideal platform for agricultural research and teaching demonstration
Act now and step into the new era of smart agriculture!
If you are
Seek solutions for water and fertilizer conservation, cost reduction and efficiency improvement
It is hoped to enhance the quality and competitiveness of agricultural products
• Prepare to transform towards smart agriculture and digital agriculture
Scientific data is needed to support agricultural production decisions
Please contact us immediately to obtain a dedicated solution!
Our professional team offers you one-stop services including planning and design, equipment installation, and data services
Honde Technology Co., LTD.
WhatsApp: +86-15210548582
Email: info@hondetech.com
Company website: www.hondetechco.com
Post time: Sep-08-2025