Gantrylangtrans
Horizontal Push-Scan Phenotyping Analysis System
Applicable Crops : Field-grown plants (H ≤1m)
Application Environment : Field
Sensor : VL2 / Hyperspectral / Thermal Infrared
Movement Path : Horizontal(X)/ Vertical(Z)
Travel Distance (X): 0–1350 mm
Travel Distance (Z): 0~500mm
Gantrylangtrans adopting a simplified single-axis mini-gantry design, the imaging sensor can automatically move and position itself above the plant area, hovering over the plant and automatically adjusting the camera height according to the plant’s size for image acquisition and phenotypic analysis.
Single-axis gantry motion platform + Imaging unit + Phenotyping analysis unit
Supports the configuration of meteorological sensors for real-time monitoring of environmental changes.
Integrates multiple optical sensor acquisition interfaces with built-in crop analysis model algorithms.
Supports automatic or manual ROI (Region of Interest) selection and analysis of images.
Enables further analysis and visualization of the measured data.
Imaging unit
Visible Light Imaging Unit (VL2) :
Mainly analyzes crop color, morphology, and texture parameters. It can measure total crop area, green leaf area, fractal dimension, inscribed rectangle area, convex hull area, visible leaf edge length, chlorophyll retention characteristics, leaf rolling degree, proportion of dead leaves, plant compactness, and other related traits.
Hyperspectral Imaging Unit (HIPS) :
erforms calculation of plant canopy spectral characteristic curves and obtains around 30 commonly used vegetation indices such as NDVI and GVI. It enables analysis of biological parameters such as chlorophyll content and canopy nitrogen content, supporting studies on plant composition changes, nutritional status, and disease occurrence.
Infrared Thermal Imaging Unit (IRTI) :
Detects the temperature distribution on the plant surface, acquires canopy temperature data, and generates temperature distribution maps and regional temperature analyses. Based on user requirements, it can be used to model drought stress, irrigation efficiency, and other related studies.
VL2
VL2-ROI
HIPS
