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Science instrument working state monitoring method based on computer vision

A technology of computer vision and scientific instruments, applied in computer components, instruments, calculations, etc., can solve the problems of unable to view status indicators, unable to realize network monitoring, no detailed working time, status records, etc.

Inactive Publication Date: 2009-03-18
JILIN UNIV
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

Such as Chinese patent CN 1308984C discloses a kind of invention indicating the working state of equipment, this method only provides the indication of working state, does not have detailed working time, state record, and can not realize networked monitoring; ) discloses a device for monitoring the working state of an instrument in the form of hardware, which collects working state information from the state indicating parts on the periphery of the instrument, and its contact detection method directly draws current signals from scientific instruments, which has certain risks; its non-contact method is To prevent the influence of external light on the phototransistor, it is necessary to use rubber tubes and other shading devices to seal the status indicators on the scientific instruments, so that the instrument operators cannot view the corresponding status indicators to obtain the necessary status information

Method used

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  • Science instrument working state monitoring method based on computer vision
  • Science instrument working state monitoring method based on computer vision
  • Science instrument working state monitoring method based on computer vision

Examples

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Embodiment Construction

[0046] The specific implementation method will be described below by taking the working state monitoring of the EMX-SM7 electronic probe of Shimadzu Corporation of Japan as an example.

[0047]1. There are multiple status indicators on the panel of the electronic probe instrument. First, agree with the instrument operator which status indicator can scientifically reflect the vacuuming status of the instrument. This indicator is defined as the status indicator of interest.

[0048] 2. Point the image sensing device at the status indicator light of interest. The image sensing device is connected to the embedded processing module. The embedded processing module provides a network interface and is connected to the Internet.

[0049] 3 Characterize the status indicator light on the scientific instrument. Artificially draw a mark with a characteristic pattern under the status indicator light of interest, and intercept the images of the status indicator light being on and off as the ...

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Abstract

The invention relates to the field of computer application technologies, and discloses a scientific instrument working status monitoring method based on computer vision, which comprises an image collecting part, an image analyzing part and a status data transmission part. An image sensing device is used for transmitting the collected images of the scientific instrument working status indicator to the embedded processing module for image analysis and processing, acquiring working status of the instrument, and transmitting the working status to a remote server via the Internet. In the image analyzing process, a plurality of ways including characteristic point marking, characterized point positioning based on circle detection, template matching and color matching are jointly used for identifying working status of the instrument. The characterized point positioning is realized through the algorithm of circle detection based on an inscribed right-angle triangle. The circle detection algorithm establishes an array storage space based on effective pixel positions. The invention applies computer visual detection technologies to monitoring of scientific instruments, and realizes reliable and real-time remote monitoring of working status of scientific instruments.

Description

technical field [0001] The invention belongs to the technical field of computer applications, and relates to a method for monitoring the working state of a scientific instrument, in particular to a remote monitoring method for the working state of a scientific instrument based on computer vision. Background technique [0002] There are three main types of existing scientific instrument working state monitoring methods. [0003] One: Some scientific instruments have their own automatic recording of the working status of the excitation source switch, such as the MAT-251 stable isotope gas mass spectrometer from Thermo Finnigan, the JSM-6700F from JEOL, and so on. This type of method indicates the working status of the instrument through the information display of the code disc device and the control software, and only supports localized data viewing. The instrument itself does not provide a data network interface, and cannot realize networked real-time monitoring of the instru...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): G06K9/00G06K9/62G06T7/00
Inventor 田地商飞邱春玲马骏骁龙涛王丰贵杨光李春生杨红生刘金伟乔艳明孙蕊
Owner JILIN UNIV
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