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High-throughput plant phenotype analysis device and method based on optical imaging technique

A technology of optical imaging and phenotypic analysis, which is applied in the direction of material analysis, measuring device, and material analysis through optical means, which can solve the problems that the accuracy cannot meet the requirements of practical applications, and achieve the effect of convenient use and accurate test results

Active Publication Date: 2016-06-29
ZHEJIANG UNIV
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Problems solved by technology

[0006] The above-mentioned plant phenotype scanning device is only used for three-dimensional reconstruction of plants, and the accuracy cannot meet the requirements of practical applications. At present, there are few reports on high-throughput plant phenotype analysis methods and devices based on multi-imaging sensing technology. It is of great significance to obtain plant characterization characteristics and traits comprehensively and efficiently

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  • High-throughput plant phenotype analysis device and method based on optical imaging technique
  • High-throughput plant phenotype analysis device and method based on optical imaging technique
  • High-throughput plant phenotype analysis device and method based on optical imaging technique

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Embodiment Construction

[0043] Such as Figure 1~5 As shown, the high-throughput plant phenotype analysis device based on optical imaging technology of this embodiment includes: light shield 1, base 2, top frame 3, material carrier 4, sensor plate 5, chlorophyll fluorescence imager, near infrared Multi-spectral surface imager, infrared thermal imager and three-dimensional reconstruction imager and light source group.

[0044] The base 2 is installed in the light-shielding cover 1, and a working position 201 is arranged in the middle of the base 2;

[0045] The material carrier 4 is installed on the work position 201, and the light shield 1 is provided with a feed inlet 101 and an opening and closing door 102. The material installation position 202 is provided outside the light shield 1, and there is a material installation position 202 between the material installation position 202 and the work position 201. There is a conveyor belt 203 passing through the feeding port 101, and the material carrier 4 is ...

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Abstract

The invention discloses a high-throughput plant phenotype analysis device based on an optical imaging technique.The device comprises a light shading cover, a base, a top frame, a material carrying table, a sensor panel, a chlorophyll fluorescence imager, a near-infrared multi-spectral facial form imager, an infrared thermal imager, a three-dimensional reconstruction imager and a light source set; the base is installed in the light shading cover, and a working position is arranged in the middle of the base; the top frame is installed in the light shading cover and fixed over the base; the material carrying table is installed on the working position of the base; the sensor panel is installed on the top frame through a translation mechanism; the chlorophyll fluorescence imager, the near-infrared multi-spectral facial form imager, the infrared thermal imager and the three-dimensional reconstruction imager are installed on the sensor panel; the light source set is installed on the sensor panel and supplies exciting light and illuminating light to the imagers.The invention further discloses a high-throughput plant phenotype analysis method based on the optical imaging technique.According to the device and method, use is convenient, complete plant phenotype data can be acquired, and the test result is accurate.

Description

Technical field [0001] The invention relates to plant phenotype analysis equipment, in particular to a high-throughput plant phenotype analysis device and method based on optical imaging technology. Background technique [0002] Plant phenotype research is an important subject in the field of botany and biology. It is mainly through the identification and analysis of various plant characteristics and traits, namely phenotypes, and the monitoring and control of complex plant growth environments to clarify the genome and The complex effects of environmental factors on plant phenotype, the relationship between plant phenotype and its yield and physiological state, and the influence of different environmental conditions on plant growth, yield and quality. [0003] At present, researches on genetic breeding, crop variety resource identification, cultivation physiology, plant biology, etc. all need to determine the different levels of phenotypic characteristics and traits of a large numb...

Claims

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Application Information

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IPC IPC(8): G01N21/84
CPCG01N21/84G01N2021/1736G01N2021/8466
Inventor 岑海燕张艳超何勇高大海翁海勇
Owner ZHEJIANG UNIV
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