Implementation method of vegetation canopy multi-spectral imaging system

A multi-spectral imaging and vegetation canopy technology, which is applied in spectrometry/spectrophotometry/monochromator, spectrum investigation, optical radiation measurement, etc., can solve fisheye images that are easy to overexposure, canopy light and effective Decreased radiation calculation accuracy and other issues

Active Publication Date: 2016-11-16
FUZHOU UNIV
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Problems solved by technology

[0007] Traditional vegetation canopy photosynthetically active radiation measurements are often calculated based on fisheye images (visible light bands). Since the collection of fisheye images (visible light bands) is easily affected by weather conditions, and fisheye images are easily overexposed, resulting in canopy light and reduced accuracy of effective radiation calculations

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  • Implementation method of vegetation canopy multi-spectral imaging system
  • Implementation method of vegetation canopy multi-spectral imaging system
  • Implementation method of vegetation canopy multi-spectral imaging system

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Embodiment Construction

[0048] The present invention will be further described below in conjunction with the accompanying drawings and embodiments.

[0049] This embodiment provides an implementation method of a vegetation canopy multispectral imaging system, such as figure 1 shown, including the following steps:

[0050] Step S1: transforming the SLR camera Nikon D300S to have near-infrared band imaging capabilities;

[0051] Step S2: Put the camera on the gimbal (Manfrotto panoramic head MH303SPH) and tripod (Manfrotto MT055CXPRO4), turn the gimbal to the set zenith angle and azimuth direction, install the fisheye lens (Sigma 4.5mm fish Optical lens) or telephoto lens (Nikon Nikon AF-SDX 18-200), and install a filter on the lens (Nature HL-OPTICS infrared cut filter), Nature HL-OPTICS 760nm, Nature HL-OPTICS 850nm);

[0052] Step S3: Make the camera image in a single near-infrared band or two bands of visible light and near-infrared, and complete multispectral imaging of the canopy in the directi...

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Abstract

The invention relates to an implementation method of a vegetation canopy multi-spectral imaging system. Firstly, a single lens reflex camera is enabled to have a near infrared band imaging capability by reconstruction, the camera is placed on a holder and a tripod, the holder is rotated to a direction of setting a zenith angle and an azimuth angle, a fish-eye lens or telephoto and prime lens is installed, a filter is installed on the lens, the camera is enable to form an image within a single near infrared band or two or more visible light and near infrared bands, and canopy multi-spectral imaging in multiple zenith angle and azimuth angle directions is completed according to a set scheme. Collected vegetation canopy multi-spectral images are classified, and based on classified images, a vegetation canopy woody total area ratio parameter, an aggregation index and photosynthetically active radiation distribution can be calculated The invention prevents vegetation canopy destroyed sampling, is low in manpower and material resource investment, solves problems of a traditional optical measurement method that the error is large, the efficiency is low and the like, and can be applied to measurement of the vegetation canopy wood-total area ratio parameter, the aggregation index and the photosynthetically active radiation distribution.

Description

technical field [0001] The invention relates to the technical field of vegetation canopy multispectral imaging, in particular to a method for realizing a vegetation canopy multispectral imaging system. Background technique [0002] Leaf area index (LAI) is dimensionless, which can be defined as half of the surface area of ​​all green plant organs per unit surface area. As one of the core parameters to characterize the vegetation canopy structure, LAI has been widely used in vegetation growth and productivity models, crop growth models, net primary productivity models, atmospheric models, hydrological models and other models as well as forestry, botany, ecology, agronomy, etc. and other fields. [0003] Photosynthetically active radiation is the main energy source for the synthesis of carbohydrates in plant photosynthesis. Its distribution in the plant canopy can not only affect the change of plant biomass, but also lead to the change of plant morphology. Therefore, the pho...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): G01J3/28
CPCG01J3/2823G01J2003/2826
Inventor 邹杰
Owner FUZHOU UNIV
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