ATH1010K Visible Near Infrared Hyperspectral Imager Introduction: ATH1010 is a small and lightweight miniature hyperspectral imaging instrument, particularly suitable for use with drones. In addition to its small size and light weight, ATH1010 has the characteristics of high spatial resolution, high spectral resolution, and wide imaging range. ATH1010 consists of two parts: an imaging lens and a hyperspectral spectrometer, among which the hyperspectral spectrometer is based on transmission grating technology and has good aberration characteristics. ATH1010 uses high-performance CCD imaging devices with 1920 × 1200 pixels (narrow field of view) or 2048 × 2048 pixels (wide field of view), providing clear imaging and minimal noise; ATH1010 is a conventional straight tube hyperspectral aircraft suitable for multi rotor unmanned aerial vehicles. For fixed wing drones and other short landing gear drones, Opu Tiancheng has launched a specialized ATH1010L bending optical path hyperspectral to reduce the requirement for landing gear height. ATH1010 can be used to measure the spectral information of plants, water bodies, soil and other land features in real time, and obtain spectral images. By analyzing the spectral images, relationships can be established with the physical and chemical properties of plants, which can be used for plant classification, plant growth status and other research. The entire system design is compact, and the imaging spectrometer host has high spectral resolution. At the same time, it adopts an external push scan imaging method, which can form independent measurement systems with field rotating platforms and indoor linear scanning platforms, and can also be mounted on drones for aerial remote sensing operations. Technical features: 1. Band range: 380~1000nm 2. Hyperspectral resolution: better than 1.3 nm 3. Spectral path: Holographic transmission grating spectral path 4. Field of view angle: 31.7 ° 5. Minimum instantaneous field of view angle: 1.2 mrad 6. Superb imaging performance 7. Powerful image compression algorithm 8. Compact size: 279 mm × 64 mm × 55 mm 9. Lightweight:< 700g 10. No mechanical scanning, high reliability Product application: Geological and Mineral Resource Exploration Precision agriculture, crop growth and yield assessment Forest pest and disease monitoring and fire prevention monitoring Coastline and Marine Environment Monitoring Grassland productivity and grassland monitoring Monitoring of Lake and Watershed Environment Remote sensing teaching and research Meteorological research Ecological environment protection and monitoring of mining environment Water quality testing, soil monitoring Quality inspection of agricultural and livestock products Military, Defense, and Homeland Security disaster prevention and control
Introduction: ATH1010 is a small and lightweight miniature hyperspectral imaging instrument, particularly suitable for use with drones. In addition to its small size and light weight, ATH1010 has the characteristics of high spatial resolution, high spectral resolution, and wide imaging range. ATH1010 consists of two parts: an imaging lens and a hyperspectral spectrometer, among which the hyperspectral spectrometer is based on transmission grating technology and has good aberration characteristics. ATH1010 uses high-performance CCD imaging devices with 1920 × 1200 pixels (narrow field of view) or 2048 × 2048 pixels (wide field of view), providing clear imaging and minimal noise; ATH1010 is a conventional straight tube hyperspectral aircraft suitable for multi rotor unmanned aerial vehicles. For fixed wing drones and other short landing gear drones, Opu Tiancheng has launched a specialized ATH1010L bending optical path hyperspectral to reduce the requirement for landing gear height. ATH1010 can be used to measure the spectral information of plants, water bodies, soil and other land features in real time, and obtain spectral images. By analyzing the spectral images, relationships can be established with the physical and chemical properties of plants, which can be used for plant classification, plant growth status and other research. The entire system design is compact, and the imaging spectrometer host has high spectral resolution. At the same time, it adopts an external push scan imaging method, which can form independent measurement systems with field rotating platforms and indoor linear scanning platforms, and can also be mounted on drones for aerial remote sensing operations.