Your farm, connected. Your crops, precisely monitored.
The outdoor field intelligent monitoring system takes meteorological environment and soil conditions as its core monitoring targets. The system collects data such as wind speed, rainfall, temperature and humidity, radiation, soil moisture and nutrients, and realizes remote monitoring and early warning through the 4G cloud platform, assisting in farmland irrigation, pest and disease control, and agricultural decision-making.
•All-in-One Environmental Monitoring: Track key metrics including wind, rainfall, temperature, humidity, and solar radiation from a single, integrated system.
•In-Depth Soil Health Analysis: Gain precise insights into soil water content and nutrient levels, the foundation of crop vitality.
•Real-Time Alerts & Predictive Insights: Get instant SMS or app notifications for critical events like high winds, heavy rainfall, or low soil moisture. Move from reactive to proactive farming.
•Remote Access via 4G Cloud Platform: View your farm's status anytime, anywhere, on any device. Your data is securely stored and easily accessible.
•Data-Driven Decision Support: Leverage historical and real-time data to make scientifically-backed decisions on irrigation, fertilization, and pest management.
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1. System Overview
This plan outlines a comprehensive intelligent monitoring system for a 100-square-meter (10m x 10m) citrus orchard. The system leverages Internet of Things (IoT) technology to enable precise monitoring of the orchard's environment and crop growth. It integrates data collection, wireless transmission, cloud-based analysis, and smart control to support scientific cultivation, reduce labor costs, and improve fruit quality and yield. 2. Detailed Equipment List
The following is a suggested equipment list tailored for a 100-square-meter plot, focusing on cost-effectiveness and essential functionalities.
Based on your request, here is a detailed plan for a 100-square-meter citrus orchard intelligent monitoring system, including specific equipment and scheme details, presented in English. 1. System Overview
This plan outlines a comprehensive intelligent monitoring system for a 100-square-meter (10m x 10m) citrus orchard. The system leverages Internet of Things (IoT) technology to enable precise monitoring of the orchard's environment and crop growth. It integrates data collection, wireless transmission, cloud-based analysis, and smart control to support scientific cultivation, reduce labor costs, and improve fruit quality and yield. 2. Detailed Equipment List
The following is a suggested equipment list tailored for a 100-square-meter plot, focusing on cost-effectiveness and essential functionalities. | | | | Quantity Suggested for 100m² | |
| | Integrated Weather Station | Monitors air temperature & humidity, light intensity, rainfall, wind speed & direction. Solar-powered with IP66 rating. | | Collects microclimate data for irrigation and pest/disease forecasting. |
| | Monitors soil moisture, temperature, EC (electrical conductivity), and pH at root zone depth (e.g., 20-40cm). Wireless and battery-operated. | | Provides real-time soil condition data for precise irrigation and fertilization. |
| Pest & Disease Monitoring | Solar-Powered Intelligent Pest Forecast Lamp | Automatically attracts, kills, photographs, and identifies pests. Solar-powered with 4G/5G data transmission. Effective against multiple pest species while minimizing harm to beneficial insects. | 1 unit (suitable for areas up to 30 acres) | Enables early pest detection and population monitoring for targeted control. |
| | Targets specific pests like citrus leafminer or Oriental fruit fly. | 2-3 traps for specific pests | Provides precise monitoring and control of key pest species. |
| | Catches small pests like whiteflies and aphids. | | Low-cost monitoring for small, flying insects. |
| Video Monitoring (Optional) | | 1080P resolution with infrared night vision, capable of 360° rotation. Used for remote viewing of crop growth (seedling condition) and field security. | | Visual verification of crop status and field conditions. |
| Data Transmission & Power | | Aggregates data from sensors via LoRa/Zigbee and transmits it to the cloud platform via 4G/5G. | | The central communication hub for the sensor network. |
| | Includes a 30W-50W solar panel, charge controller, and battery (e.g., 20Ah) to power field devices. | 1 set per major device (e.g., for weather station, pest lamp) | Provides autonomous power for equipment installed in the field. |
| | Cloud Platform & Mobile App | Provides data visualization (charts/graphs), smart alerts based on custom thresholds (e.g., low soil moisture), and decision-support features (e.g., irrigation suggestions). | | The user interface for monitoring, receiving alerts, and managing the orchard. |
3. Scheme Implementation Details
- Sensor Deployment: The soil sensors should be installed at different locations within the plot to account for variability. The weather station and pest monitoring lamp should be placed in an open area, clear of tree shade, to ensure accurate readings and sufficient solar exposure.
- Data Flow: Sensors collect data at set intervals (e.g., every 2 hours). This data is wirelessly sent to the gateway, which then transmits it to the cloud platform via cellular network. The platform analyzes the data and presents it to the user via a mobile app or computer dashboard.
- Smart Alerts & Control: The system can be configured to send automatic alerts (via SMS or app notification) when parameters exceed predefined thresholds. For example, an alert can be triggered if soil moisture drops below a certain level. This can be linked to an automated drip irrigation system for immediate action.
4. Expected Benefits
- Precision Management: Data-driven irrigation and fertilization can reduce water and fertilizer usage by 20-30% and lower labor costs.
- Proactive Pest/Disease Control: Early warning allows for targeted intervention, potentially reducing pesticide use by 20-30% and promoting eco-friendly practices.
- Informed Decision-Making: Historical data on weather, soil, and pest pressures helps optimize long-term planting strategies and improve fruit quality and yield.
- The equipment list can be implemented in phases. Starting with the core modules (e.g., soil and weather monitoring) is recommended, with pest monitoring and automated control added later based on budget and needs.
- Regular maintenance, such as cleaning sensors, replacing lure cores in traps, and ensuring solar panels are unobstructed, is crucial for long-term system accuracy and reliability.
- When selecting equipment, ensure it has a high Ingress Protection (IP) rating (e.g., IP66) for durability in outdoor conditions.
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