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An intelligent analysis system for rice panicle traits based on LED-red light transmission imaging

An intelligent analysis and rice ear technology, which is applied in the direction of material analysis, analysis of materials, and instruments by optical means, which can solve the problems of cumbersome operation, great influence on measurement accuracy, and high labor intensity.

Active Publication Date: 2022-05-13
HUAZHONG AGRI UNIV
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Problems solved by technology

Based on the importance of the development of the phenotyping platform researched in the field of high-throughput detection of crop phenotypes, the traditional ear traits measurement mainly relies on manual labor, which has disadvantages such as cumbersome operation, high labor intensity, and the measurement accuracy is greatly affected by manual subjective factors. In view of the large size of the existing equipment, the low resolution accuracy of solid grains and shriveled grains, or potential safety hazards, the present invention researches and designs an intelligent analysis system for rice ear traits based on Led-red light transmission imaging, providing a A new method for detecting plant solid grains and deflated grains, which reduces the volume of the plant phenotype detection platform, improves detection efficiency, and ensures safety

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  • An intelligent analysis system for rice panicle traits based on LED-red light transmission imaging
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  • An intelligent analysis system for rice panicle traits based on LED-red light transmission imaging

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Embodiment Construction

[0012] The specific implementation plan of the intelligent analysis system for rice ear traits based on Led-red light transmission imaging is as follows:

[0013] The length, width and height of this intelligent analysis system for rice ear traits based on Led-red light transmission imaging are: 700*400*1020mm, which is mainly composed of an Led-red light transmission imaging module, an intelligent analysis module for rice ear traits and a control system composition.

[0014] 1. Based on Led-red light transmission imaging module: The Led-red-light transmission imaging module of the present invention adopts intelligent drawer type transportation, and is equipped with drawers, drawer slide rails and DC motor push rod machines. Among them, the drawer is a heterosexual drawer, and the center and four corners of the bottom of the drawer are hollowed out so that the weighing device can realize the weighing action; the drawer slide rail adopts three-section silent track solid ball sl...

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Abstract

The invention relates to a detection and control device for plant phenotype research, in particular to an intelligent analysis system for rice ear traits based on Led-red light transmission imaging, which extracts rice ear traits. Based on the importance of the development of the phenotyping platform researched in the field of high-throughput detection of crop phenotypes, the traditional ear traits measurement mainly relies on manual labor, which has disadvantages such as cumbersome operation, high labor intensity, and the measurement accuracy is greatly affected by manual subjective factors. In view of the large volume of existing equipment, the low resolution accuracy of solid grains and shriveled grains, or potential safety hazards, the present invention researches and designs an intelligent analysis system for rice ear traits based on Led-red light transmission imaging, and provides a A new method for detecting plant solid grains and deflated grains, which reduces the volume of the plant phenotype detection platform and improves the detection efficiency.

Description

technical field [0001] The invention relates to a plant phenotype research and detection device and method, in particular to an intelligent analysis system for rice ear traits based on Led-red light transmission imaging, which extracts rice ear traits. Background technique [0002] Ear is the final expression part of yield, and the relationship between ear traits and yield has always been the focus of research in breeding. When evaluating quality, ear traits most directly related to yield have always been important reference information. Ear traits include seed setting rate, grain weight, and grain length. Among them, the seed-setting rate affected by the empty grain and the grain weight affected by the grain length are important parameters affecting the yield. Based on the importance of the development of the phenotyping platform researched in the field of high-throughput detection of crop phenotypes, the traditional ear traits measurement mainly relies on manual labor, wh...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): G01N21/3563
Inventor 黄成龙杨万能冯慧段凌凤刘立豪
Owner HUAZHONG AGRI UNIV
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