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Spectrum sensing system capable of real-time calibration and spectral processing method

A sensing system and spectrum technology, applied in the field of spectrum sensing, can solve the problems of increasing equipment cost and weight, inconvenient use, and inability to adjust, and achieve the effect of taking into account the requirements of high-speed real-time processing, high flexibility, and high adaptability

Active Publication Date: 2019-05-07
台州市维谱智能科技有限公司
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

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Problems solved by technology

However, all three methods have their obvious limitations. Periodic calibration of lighting sources can only reflect the situation at the time of calibration, and cannot make corresponding adjustments for real-time environmental changes.
Whiteboard reflection calibration needs to lay a standard reflector near the object to be measured, which is inconvenient to use
Conventional real-time acquisition and calibration requires an additional set of spectral sensing equipment, which greatly increases the cost and weight of the equipment, and can only be applied to some large-scale, fixed-position spectral sensing systems

Method used

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  • Spectrum sensing system capable of real-time calibration and spectral processing method
  • Spectrum sensing system capable of real-time calibration and spectral processing method
  • Spectrum sensing system capable of real-time calibration and spectral processing method

Examples

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Embodiment 1

[0035] refer to figure 1 with figure 2 As shown, a real-time calibrated spectral sensing system described in this embodiment includes an illumination light source 1, a slit sheet 2, and an illumination light collection component. Wherein, the illumination light source 1 can be a natural light source or an artificial light source, and the illumination light collected by the system can be natural light or artificial light. The slit sheet 2 is not limited to a circular metal sheet, and the slit sheet 2 is vertically provided with a long slit 201 for incident object light and a short slit for incident illumination light. The slit 202, the long slit 201 and the short slit 202 are arranged next to each other, and the vertical lengths of the two are different.

[0036] The front end of the long slit 201 is provided with an imaging objective lens 3, thereby forming an incident light path of object light. The illumination light collection assembly is located in front of the short sl...

Embodiment 2

[0051] The relationship between the lengths of the object light imaging area 801 , the illumination light imaging area 802 and the lengths of the two slits depends to a certain extent on the structures of the imaging objective lens 3 , the spectral divergence head 6 , the spectroscopic system 7 and the imaging sensor 8 . As one of the preferred embodiments, the vertical length of the object light imaging area 801 in this embodiment is the same as the vertical length of the long slit 201, and the vertical length of the illumination light imaging area 802 is the same as that of the short slit 202. The vertical length is the same.

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Abstract

The invention discloses a spectrum sensing system capable of real-time calibration. The spectrum sensing system comprises a slit piece and a lighting light collection assembly, a long slit for passinglight of incident objects and a short slit for passing light of incident lighting are successively arranged on the slit piece vertically, and the long slit and the short slit have different verticallengths; an imaging objective lens is arranged at the front end of the long slit to form an object light incident light path; the lighting light collection assembly is located in the front of the short slit, and comprises a spectral collection head, an optical fiber, and a spectral diverging head, the spectral diverging head is arranged at the front end of the short slit to form a lighting light incident light path; the object light incident light path and the lighting light incident light path are provided with a shared optical splitting system and imaging sensor at the rear end of the slit piece, an object light imaging region corresponding to the object light incident light path and a lighting light imaging region corresponding to the lighting light incident light path are arranged on the imaging sensor, and the imaging sensor is further electrically connected with a main control board. The invention further discloses a spectral processing method, and automatic real-time calibrationof a light source is realized by sharing the same light path.

Description

technical field [0001] The invention relates to the technical field of spectral sensing, in particular to a real-time calibrated spectral sensing system and a spectral processing method thereof. Background technique [0002] The spectral sensing system is a system that acquires light carrying object information and processes it to obtain its corresponding spectrum. Judging and analyzing the properties of an object through the spectrum of the object has the advantages of fast speed, good selectivity, and high sensitivity, so it is widely used. use. Commonly used spectra such as reflection spectrum, transmission spectrum, fluorescence spectrum, etc., the acquisition and calculation methods of the spectrum are related to the illumination source. [0003] However, the illumination source of the system may drift in wavelength or intensity during use, and its state has a great impact on the reliability of the obtained spectrum. Therefore, it is necessary to calibrate the illumina...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): G01N21/31G01N21/25G01J3/04G01J3/02
Inventor 叶高翱
Owner 台州市维谱智能科技有限公司
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