Photobiological research techniques

Intelligent LED light source and growth box

SpectraPenHandheld hyperspectral analyzer

SpecimHyperspectral imaging technology

FluorCamChlorophyll fluorescence imaging technology

Thermo-RGBInfrared thermal imaging technology

5、 SpectraScan Push Scan Hyperspectral Imaging System

SpectraScanThe push scan hyperspectral imaging system is based on the Specim push scan hyperspectral imaging analysis technology, consisting of a hyperspectral imaging instrument, an automatic scanning platform (optional near earth remote sensing platform, EcoDrone unmanned aerial vehicle remote sensing platform, etc.), and data acquisition and processing software. It is used for plant phenotype analysis, plant physiological ecology research, genetic breeding, seed quality testing, Chinese herbal medicine identification, food testing, animal phenotype analysis, cultural relic identification, geological and mineral exploration and other fields.

Selection of commonly used hyperspectral imaging instruments:

Other technical indicators such as AisaOWL long band infrared LWIR hyperspectral imaging, AisaFENIX400-2500nm full band hyperspectral imaging, AisaKESTREL 600-1640nm hyperspectral imaging can be selected as needed for hyperspectral imaging

Chlorophyll Fluorescence Technology and FluorCam Chlorophyll Fluorescence Imaging

PSIDr. Trtilek, the President of the company, and Professor Nedbal, the Chief Scientist, have successively developed and produced the world's first dual modulation chlorophyll fluorescence meter (Martin Trtilek et al. Dual modulation LED kinetic fluorescence meter. Journal of Luminescence, 1997) and handheld chlorophyll fluorescence meter. They also successfully combined PAM chlorophyll fluorescence technology with CCD technology to develop FluorCam chlorophyll fluorescence imaging technology (Nedbal et al. Kinetic imaging of chlorophyll fluorescence using modulated light. Photosynthesis research, 2000), and provided the first commercial FluorCam system for the University of Washington in the United States in 1997. FluorCam chlorophyll fluorescence imaging technology became an important breakthrough in chlorophyll fluorescence technology in the 1990s, enabling scientists to enter a two-dimensional world for the study of photosynthesis and chlorophyll fluorescence, and becoming a powerful tool for modern genomics, phenomics, and genetic breeding research. (For detailed introduction, please refer to“FluorCam Chlorophyll Fluorescence Technology and Its Applications”）

Yiketai Ecological Technology Company provides comprehensive solutions for chlorophyll fluorescence technology:

1) FluorPen、 AquaPen handheld chlorophyll fluorescence meter and chlorophyll fluorescence monitoring solution, chlorophyll fluorescence technology is fully mastered

2) FL6000Dual modulation chlorophyll fluorescence analyzer with a time resolution of up to 1 microsecond, PAM pulse modulation, OJIP fast fluorescence kinetics, QA re oxidation kinetics, S-state transition, light response curve, STF single cycle saturated light pulse chlorophyll fluorescence dynamics, TTF dual cycle conversion light pulse chlorophyll fluorescence dynamics, MTF multi cycle pulse chlorophyll fluorescence dynamics FRR、 A comprehensive technical solution for measuring chlorophyll fluorescence and synchronous dissolved oxygen (photosynthesis) using protocols and multispectral excitation can also be applied in conjunction with TL6000 chlorophyll thermoluminescence measurement technology.

3) FKMChlorophyll Fluorescence Dynamic Microscopic Imaging and Spectral Analysis System - Cellular and Subcellular Chlorophyll Fluorescence and Multispectral Fluorescence Dynamic Imaging (see above figure)

4) FluorCamPortable Chlorophyll Fluorescence Imaging System - The Best Choice for Field Portable Chlorophyll Fluorescence Imaging Analysis

5) FluorCamClosed chlorophyll fluorescence imaging system - plant physiological and ecological research, desktop high-throughput phenotype analysis

6) FluorCamModular chlorophyll fluorescence imaging system - available in 13x13cm standard version and 20x20 large version, with optional multi excitation light multispectral fluorescence imaging

7) FluorCamLarge scale chlorophyll fluorescence imaging platform, available in laboratory and field versions, with an imaging area of 35x35cm

8) FluorCamMulti spectral fluorescence imaging technology scheme

9) FluorCamScanning Chlorophyll Fluorescence Imaging System with Sample Bands

10) FluorCamPhotosynthetic chlorophyll fluorescence imaging system

11) FluorCamChlorophyll Fluorescence and Hyperspectral Imaging Combined System

12) FluorCamChlorophyll fluorescence imaging combined with infrared thermography system

Thermo-RGB infrared thermal imaging technology

All objects above absolute zero (-273 degrees Celsius) emit infrared radiation (heat), which can be measured by infrared radiation sensors, such as the Spectra Thermo spectral and thermal radiation monitoring system provided by Yiketai Ecological Technology Company (see left figure below), which can be used to monitor photosynthetically active radiation, NDVI/PRI, and temperature of leaves, canopies, tree trunks, etc. (as a non imaging system, Thermo RGB infrared imaging is optional).

Left: Spectra Thermo Spectroscopy and Thermal Radiation Monitoring System; Right image: Thermo RGB infrared thermal imaging

Infrared thermography can image the infrared radiation heat emitted by objects within the field of view (see the figure on the right), visualizing the temperature distribution on the surface of the object (usually using pseudocolor to display two-dimensional temperature changes).

Yiketai Ecological Technology Company provides a comprehensive solution for infrared thermal imaging measurement and analysis for plant science research:

ü Thermo-RGBTechnology, infrared thermal imaging and RGB fusion imaging analysis, can automatically measure and analyze the temperature and coverage of sunlit leaves, the temperature and coverage of shaded leaves, soil temperature and coverage, etc., and perform canopy color analysis measurement, frequency histogram analysis, etc

ü Research grade infrared thermal imaging, multi-point blackbody and environmental temperature calibration with calibration certificates, ensuring accurate temperature values for each pixel

ü Band 7.5-13.5μmWith a resolution of 640x512 pixels, the temperature sensitivity can reach 0.03 degrees Celsius (30mk)

ü Powerful software analysis function, which can instantly display the temperature distribution curve of any point, linear range temperature distribution curve, average temperature and maximum/minimum temperature of any area, temperature distribution frequency histogram, 3D temperature distribution, and more

ü Different optional solutions such as handheld, online, and fixed monitoring

ü Integrated scheme of infrared thermal imaging and chlorophyll fluorescence imaging technology

ü Integrated scheme of infrared thermal imaging and hyperspectral imaging technology

ü Unmanned aerial vehicle infrared thermal imaging remote sensing technology scheme

ü Applied to the study of plant stomatal conductance, imaging analysis of plant stress, especially drought stress, etc

ü Mapping technology scheme for plant water stress index

Left image: Field infrared thermal imaging monitoring; Right image: Infrared thermography analysis of drought stress in paddy fields

Left image: Monitoring of wheat drought resistance; Right image: Unmanned aerial vehicle infrared thermal imaging remote sensing monitoring of crop drought stress