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Smart Agriculture Cultivation Solutions

Background Introduction

Challenges of Traditional Agriculture
Resource constraints: tight supplies of land, water, labor, and other resources.
Low production efficiency: Traditional farming methods are inefficient and struggle to meet market demand.
Environmental pollution: Improper use of fertilizers, pesticides, and other agrochemicals leads to environmental pollution.
Information Asymmetry: Information asymmetry between farmers and the market affects planting decisions and profitability.

Solution Overview

By leveraging a variety of sensors and wireless communication devices, farm-field data can be transmitted in real time and automatically to the desks of agricultural managers, thereby establishing an integrated, IoT-based connection between farmers and their fields. Furthermore, the application of RFID and other tagging technologies enables the development of modern agricultural logistics, warehousing, and transportation systems, facilitating effective monitoring and assurance of food safety. At the same time, the collection and networking of farm-field information support the early detection and warning of natural disasters, streamline regional management, and promote extensive information sharing and agricultural automation.

FEATURES OF THE SOLUTION

System Functions
Leveraging sensor and IoT technologies, monitor soil parameters such as moisture, temperature, and pH to assess soil quality and nutrient status; measure meteorological data—including temperature, humidity, precipitation, and wind speed—to understand the impact of weather variations.

Monitor pest and disease conditions in agricultural fields through visual inspection, trap monitoring, sticky insect boards, and pest surveillance, to detect problems early and implement appropriate control measures.

Based on monitoring data, irrigation, fertilization, lighting, and other parameters are automatically adjusted to achieve precise control.

Leverage big data and artificial intelligence technologies to analyze crop growth patterns, predict the occurrence of pests and diseases, and implement preventive measures in advance.

By integrating remote sensing technology, large-scale, high-precision crop monitoring and assessment can be achieved, thereby enhancing planting efficiency and yields.

Intelligent Comprehensive Safety Monitoring Solution for Water Resources

Smart Water Solutions

Intelligent Comprehensive Safety Monitoring Solution for Water Resources

Smart Water Solutions

RECOMMENDED CASES

RECOMMENDED PRODUCTS

Geodetic GNSS receiver

The geodetic GNSS receiver is a versatile deformation-monitoring device that integrates a high‑precision GNSS module with MEMS sensors. It supports multi‑system, multi‑frequency signal reception, including BeiDou‑3, GPS, and GLONASS, and delivers millimeter‑level static monitoring as well as centimeter‑level dynamic monitoring. Equipped with an advanced intelligent fusion algorithm, the device combines satellite positioning data with inertial sensor information to enable continuous, reliable displacement monitoring in complex environments. It is widely applicable to geological hazard and engineering safety monitoring scenarios, such as landslides, subsidence, and mining‑area deformations.

Radar water level gauge

Radar water level gauges are developed based on millimeter-wave radar and designed for measuring water levels. By recording the time it takes for a pulse wave to travel and multiplying it by the speed of electromagnetic waves, the gauge determines the distance between the liquid surface and the radar antenna, thereby indicating changes in water level. This device is a compact, all‑weather, all‑time sensor that offers high integration, a small footprint, and easy installation.

Integrated Soil Moisture Monitor

The integrated soil moisture monitor is a multi-layer soil moisture sensing device based on the frequency-domain reflectometry (FDR) principle, capable of simultaneously measuring volumetric water content at three distinct depths within the same soil profile. The device integrates high-sensitivity sensors, a low-power processor, and a wireless communication module, supporting remote configuration and real-time data transmission. It features robust temperature compensation and excellent soil adaptability, making it well-suited for long-term soil moisture monitoring in precision agriculture, landslide early warning, eco-hydrology, and other applications.

Rainfall monitor

The rainfall monitor is a fully automatic rainfall recording device featuring a dual‑bucket mechanical design, offering a resolution of 0.2 mm and a measurement accuracy of ±2%. It can operate reliably under extreme temperature and vibration conditions. The device integrates rainfall sensing, data storage, and wireless transmission capabilities, supporting real-time calculation of rainfall intensity and cumulative rainfall statistics. It is widely used in meteorology, hydrology, geological hazard monitoring, and urban flood‑control surveillance.

Integrated Tilt (Collapse) Monitor

The integrated tilt (collapse) monitoring device is an intelligent monitoring system that combines high-precision sensing, wireless transmission, and a high level of environmental protection. It employs triaxial MEMS tilt and vibration‑acceleration sensors to continuously acquire real-time data on structural tilt angles, acceleration, and ambient temperature and humidity, which are then transmitted to a cloud platform via 4G, LoRa, or other communication methods. This device is ideally suited for long-term safety monitoring of slopes, bridges, towers, and other structures. Featuring low power consumption, extended battery life, and strong anti‑interference capabilities, it provides reliable data to support structural health assessments and disaster early warning.

Integrated Crack Monitor

The Integrated Crack Monitor is an intelligent monitoring terminal that leverages cable‑pull displacement sensing and multi‑parameter fusion technology, specifically designed for monitoring surface deformations such as slope cracks and retaining wall fissures. The device incorporates a high‑precision displacement sensor and a triaxial accelerometer/tilt sensor, enabling real-time measurement of crack width changes, wall vibrations, and tilt angles. Data can be transmitted remotely and alarms triggered via LoRa or 4G networks. With a robust structure and straightforward installation, it is well suited for long‑term automated monitoring in harsh outdoor environments.

Debris Flow Line-Disconnection Monitor

The debris‑flow line‑break monitoring device is an intelligent monitoring and early‑warning system specifically designed for geological hazard prevention in mountainous valleys during the flood season. It focuses on real-time sensing and timely reporting of sudden geological hazards such as debris flows and flash floods caused by torrential runoff. The device integrates high‑precision cable‑strain sensors, data acquisition, and wireless transmission modules, featuring a highly compact, modular design that adapts to complex field conditions. Typically deployed at both ends of debris‑flow‑prone gullies, it employs a physics‑based triggering mechanism to accurately detect impact‑induced signals from debris flows and floodwaters carrying sediment and rocks. This enables second‑level hazard detection, instant data upload, and remote alarm notification, buying valuable time for preemptive evacuation and emergency response.

Array-type displacement sensor

The array-type displacement meter is a flexible, series‑connected three‑dimensional inclinometer array composed of multiple measurement units. It is ideally suited for monitoring three‑dimensional spatial deformations, such as deep‑buried displacements, tunnel convergence, and excavation pit deformation. The device employs high‑precision MEMS sensors and a flexible circuit design, enabling it to bend freely with structural deformation while providing real‑time outputs of displacement, tilt angle, and vibration data. It also features trigger‑based data acquisition and a low‑power sleep mode, making it well suited for long‑term, concealed‑installation monitoring and automated safety‑alert systems.

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Contact Information

6th Floor, Building 10, Entrepreneurship Industrial Park, Chaoyang Township, Qixing District, Guilin City, Guangxi Zhuang Autonomous Region

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Smart Agriculture Cultivation Solutions

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