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Infrared scene simulation system, infrared scene simulation method and DMD control method

A technology of infrared scene and simulation system, which is applied in the field of infrared scene simulators, can solve problems such as inability to realize simulation, achieve the effects of expanding the simulation temperature range, reducing stray light, and improving signal-to-noise ratio

Active Publication Date: 2021-06-25
哈尔滨新光光电科技股份有限公司
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  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

The temperature of the object in the environment during the test was 30.51°C, as shown in Table 1 and From the data in 1, it can be seen that when the blackbody is turned off, the target temperature measured by the thermal imager is the temperature of the object in the environment. As the target temperature increases, the background temperature also gradually increases. When the high temperature target output temperature When the temperature is 200°C, the low temperature background output temperature is 39.87°C, and the simulation of the low temperature (room temperature) scene of 30.51°C cannot be realized

Method used

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  • Infrared scene simulation system, infrared scene simulation method and DMD control method
  • Infrared scene simulation system, infrared scene simulation method and DMD control method
  • Infrared scene simulation system, infrared scene simulation method and DMD control method

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Embodiment approach 1

[0032] An embodiment of the infrared scene simulation system of the present invention is as follows figure 2 As shown, it includes a first infrared optical path, a second infrared optical path and a beam combiner; the first infrared optical path includes a first blackbody and a first DMD subsystem, and the first DMD subsystem uses the first blackbody as an infrared light source to generate 2 N The temperature of the first blackbody matches the grayscale of the observation target in the first DMD subsystem; the second DMD subsystem uses the second blackbody as the infrared light source to generate 2 N grayscale image, the temperature of the second black body matches the grayscale of the observation target in the second DMD subsystem; the beam combiner is used to combine the first infrared light path and the second infrared light path to form a grayscale Superimposed images; the infrared scene simulation system is used to simulate the infrared scene when the target is higher th...

Embodiment approach 2

[0042] This embodiment provides a method for simulating an infrared scene, including:

[0043] For the gray level to be displayed is 2 N -1 for the scene image, will grayscale it to 2 N-1 of the first DMD subsystem and a grayscale of 2 N-1 The output of the second DMD subsystem is combined and stacked to obtain the scene image. Wherein the infrared light source of the first DMD subsystem is provided by the first black body; the infrared light source of the second DMD subsystem is provided by the second black body; adjust the temperature of the first black body and the second black body, so that the temperature is less than the first preset value And it is enough to simulate the target whose temperature value is the second preset value in the infrared scene.

[0044] For example, in an application scenario, it is predetermined that the image to be displayed needs to satisfy at least 2 N The gray level of -1 is selected at this time to satisfy 2 N-1 The gray-scale first DMD...

Embodiment approach 3

[0047] This embodiment provides a DMD control method, including:

[0048] Step S1: For the gray level to be displayed is 2 N For a scene image of -1, the number of subfields of the first DMD subsystem and the second DMD subsystem is set to N-1.

[0049] Step S2: Set the subfield time when the i-th subfield is driven to be twice that when the number of subfields is N; i=1, 2, . . . N-1.

[0050] Step S3: Adjust the temperature of the blackbody that provides the infrared light source for the first DMD subsystem and the second DMD subsystem until the temperature is less than the first preset value and is sufficient to simulate the target whose temperature value is the second preset value in the infrared scene .

[0051] Step S4: Combining and superimposing the outputs of the first DMD subsystem and the second DMD subsystem, so that the receiving device can receive the gray level of 2 N -1 for scene images.

[0052] The purpose of this embodiment is to adjust the parameters re...

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Abstract

The invention relates to an infrared scene simulation system, belongs to the field of infrared scene simulators, and is used for solving the defect that a high-temperature object in a low-temperature environment is difficult to realize in the prior art. The infrared scene simulation system comprises a first infrared light path, a second infrared light path and a beam combiner. The first infrared light path comprises a first black body and a first DMD subsystem, and the first DMD subsystem generates an image with 2N gray levels by taking the first black body as an infrared light source. The second DMD subsystem takes a second black body as an infrared light source to generate a 2N-level gray image. The beam combiner is used for combining the first infrared light path and the second infrared light path to form an image after gray scale superposition. And the temperatures of the first black body and the second black body are adjusted to enable the temperatures to be smaller than a first preset value and to be sufficient to simulate a target of which the temperature value is a second preset value in the infrared scene. The invention also comprises an infrared scene simulation method and a DMD control method. One application of the invention is to simulate a high-temperature object in a low-temperature scene.

Description

technical field [0001] The invention relates to the field of infrared scene simulators, in particular to an infrared scene simulation system, an infrared scene simulation method and a DMD control method. Background technique [0002] The mid-wave infrared scene generator is an important component of the infrared imaging guided weapon countermeasure environment simulation system. Its function is to receive infrared images to generate digital images output by the computer, correct and transmit the images, and convert the digital images into mid-wave infrared radiation signals. , to construct a medium-wave infrared scene for infrared imaging-guided weapons, and evaluate the adaptability of infrared imaging-guided weapons to medium-wave infrared environments. [0003] The mid-wave infrared scene generator is used to simulate the scene and target temperature. The scene simulation temperature of this mid-wave infrared scene generator requires room temperature to 80°C, and the targ...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): G01M11/00G05B17/02
CPCG01M11/00G05B17/02
Inventor 赵宏李长城
Owner 哈尔滨新光光电科技股份有限公司
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