Introducing Hyperspectral camera FS-60C

The FS-60C is an advanced UAV-based hyperspectral analysis system designed for comprehensive environmental monitoring and water quality analysis. This cutting-edge technology utilizes hyperspectral imaging to capture detailed spectral data of water bodies, soil, and crops. The FS-60C system provides real-time, accurate measurements of various environmental parameters, making it an essential tool for monitoring urban river water quality, detecting soil heavy metal content, and analyzing crop health. Its versatile applications include identifying pollution in water bodies, assessing soil fertility, and detecting diseases in crops and trees.

Key Features:

Water Quality Analysis:

• Nitrogen Content Detection: The FS-60C generates a detection map indicating nitrogen levels in water bodies, using color differences to highlight distribution.
• Real-Time Observation: The established index model allows for real-time monitoring of water quality parameters such as total nitrogen, total phosphorus, chlorophyll a, suspended solids, and turbidity.

Hyperspectral Image Retrieval:

• Urban River Quality: UAV hyperspectral technology captures images from above the surface, enabling detailed analysis of water quality in urban rivers.
• Pollution Identification: The system identifies and maps suspected polluted water bodies in key river courses.

Soil Heavy Metal Content Detection:

• Hyperspectral Imaging: Captures hyperspectral images (400-1000nm) to detect metal content in rocks and soil.
• Environmental Analysis: Provides a comprehensive hyperspectral map of the geographical environment for soil analysis.

Crop Health Monitoring:

• Large-Scale Analysis: Utilizes the FS-60C UAV system for large-scale crop health detection, including plant nutrition, soil fertility, pest control, and yield estimation.
• Spectral Curve Comparison: Analyzes crop phenotypes by comparing spectral curves at different points.

Disease Detection:

• Rice Disease Detection: Detects rice diseases based on hyperspectral analysis, identifying characteristic wavelengths after preprocessing.
• Pine Wood Nematode Disease: Monitors and distinguishes diseased pine trees from healthy ones by analyzing canopy spectral reflectance and chlorophyll content.

Non-Contact Testing:

• Alcohol Gas Detection: Conducts non-contact testing of alcohol gas in laboratories and vehicles, suitable for online detection in parking lots and entry/exit points.

Applications of Hyperspectral Camera FS-60C

1. Environmental Monitoring: By capturing hyperspectral images, the FS-60C provides detailed maps indicating nitrogen levels, phosphorus content, chlorophyll concentration, and suspended solids in water bodies. This real-time data is crucial for urban river monitoring and identifying pollution sources.
2. Agriculture: The camera enables large-scale analysis of crop health by detecting plant nutrition levels, soil fertility, and pest infestations. Farmers can compare spectral curves at different points to monitor crop phenotypes and estimate yields. Hyperspectral analysis can identify diseases in crops, such as rice diseases and pine wood nematode disease, by analyzing specific wavelengths and spectral reflectance.
3. Soil Analysis: The FS-60C captures images that reveal the metal content in rocks and soil, providing comprehensive maps for environmental and agricultural applications. This helps in assessing soil health and detecting contamination.
4. Non-Contact Testing: The system can be used for non-contact testing of alcohol gas in various settings, including laboratories and vehicles. This feature is particularly useful for online detection in parking lots and entry/exit points, enhancing safety and regulatory compliance.
5. Urban Development: The FS-60C identifies and maps polluted water bodies in urban rivers, helping city planners and environmental agencies to address and mitigate pollution issues effectively.

PARAMETERS