Spatial modulation Hadamard transform spectrograph based on DMD and spectrum rebuilding method

A technology of Hadamard transform and spatial modulation, applied in spectrum investigation and other directions, can solve the problem of difficulty in obtaining high-resolution target scene spectral data, and achieve the effects of increasing luminous flux, improving signal-to-noise ratio, and improving work efficiency

Inactive Publication Date: 2014-08-27
NANJING UNIV OF SCI & TECH
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Problems solved by technology

[0005] The purpose of the present invention is to provide a DMD-based spatially modulated Hadamard transform spectrometer and a spectral reconstruction method, which improves the working efficiency of the spectrometer and solves the problem that the traditional slit spectrometer is difficult to obtain high resolution when the energy of the light source is weak and the light is weak. The problem of target scene spectral data with high rate and high signal-to-noise ratio

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  • Spatial modulation Hadamard transform spectrograph based on DMD and spectrum rebuilding method
  • Spatial modulation Hadamard transform spectrograph based on DMD and spectrum rebuilding method
  • Spatial modulation Hadamard transform spectrograph based on DMD and spectrum rebuilding method

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Embodiment Construction

[0014] 1. Spatial Modulation Hadamard Transform Spectrometer Based on DMD (Digital Micromirror Device)

[0015] The present invention is based on the spatial modulation Hadamard transform spectrometer of DMD, as attached figure 1 Shown, comprise telescope objective lens 1, reflecting mirror 2, digital micromirror device 3, collimator mirror 4, grating 5, imaging objective lens 6, CCD camera 7; 45 ° angle, the effective plane of digital micromirror device 3 is placed parallel to the optical axis of telescopic objective lens 1, the effective plane of digital micromirror device 3 and the reflective surface of mirror 2 form an angle of 45 °, the optical axis of collimating mirror 4 Parallel to the optical axis of the light reflected from the digital micromirror device 3, the grating 5 and the imaging objective lens 6 are all placed in parallel with the collimator lens 4, and the CCD camera 7 plane forms an angle of 20 ° with the optical axis of the telescopic objective lens 1, and...

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Abstract

The invention provides a spatial modulation Hadamard transform spectrograph based on a DMD and a spectrum rebuilding method. A Hadamard transform coding template is obtained by means of the DMD to replace an entrance slit of a conventional scanning dispersion type spectrograph, so that modulation of targeted space is achieved and modulated signals are dispersed to generate a target spectrum image. An inverse matrix using a Hadamard transform matrix acts on a dispersion spectrum data matrix, and then a rebuilt target scene spectrum data matrix is obtained. By the adoption of the spatial modulation Hadamard transform spectrograph based on the DMD and the spectrum rebuilding method, the working efficiency of the spectrograph is improved, and the problem that target scene spectrum data high in resolution and high in signal to noise ratio are hard to obtain for a traditional slit spectrograph under the conditions of weak light source energy and weak light is solved.

Description

technical field [0001] The invention belongs to the technical field of spectral measurement and spectral imaging, and in particular relates to a DMD-based spatially modulated Hadamard transform spectrometer and a spectral reconstruction method. Background technique [0002] The imaging spectrometer is used to detect the two-dimensional spatial information and one-dimensional spectral information of the target, and then form a three-dimensional data cube, so as to realize the comprehensive detection and identification of the target characteristics. Optical detectors can only detect two-dimensional signals at most. To obtain a three-dimensional data cube, scanning technology or multi-channel detection technology must be used. At present, imaging spectrometers have been widely used in biochemistry, medical research, environmental and safety monitoring, ecological research, space detection research and other fields. [0003] The traditional conventional scanning dispersive spec...

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): G01J3/28
Inventor 柏连发张毅韩静岳江吉莉陈钱顾国华王勇
Owner NANJING UNIV OF SCI & TECH
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