Journals Articles Conferences News About CLP
Submit a paper Email Alert
Search
Search
Articles
Journals
News
Advanced Search
Top Searches
2D MaterialsTransformation opticsQuantum PhotonicsSmall lasersSemiconductor UV PhotonicsSupersymmetric microring laser arrays

Optics and Precision Engineering, Volume. 33, Issue 5, 702(2025)

Impact of system thermal accumulation on working performance of self-developed infrared polarization imaging system

Weiyun MAO1, Rong XIAO1, Wenrong SI1, Shaojing WANG1, Ye QIU2,3, Junzhuo ZHOU2,3, Jia HAO2,3, and Yiting YU2,3、*
Author Affiliations
  • 1State Grid Shanghai Electric Power Research Institute, Shanghai200437, China
  • 2Key Laboratory of Scale Manufacturing Technologies for High-Performance MEMS Chips of Zhejiang Province, Key Laboratory of Optical Microsystems and Application Techbnologies of Ningbo City, Ningbo Institute of Northwestern Polytechnical University, Ningbo315103, China
  • 3Key Laboratory of Micro/Nano Systems for Aerospace (Ministry of Education), Key Laboratory of Micro and Nano Electro-Mechanical Systems of Shaanxi Province, School of Mechanical Engineering, Northwestern Polytechnical University, Xi'an710072, China
    • show less
    AbstractGet PDF(in Chinese)
    Figures&Tables (20)
    Equations (8)
    References (33)
    Tools
    Paper Information
    Topics
    Figures & Tables(20)
    Rotating scanning infrared polarization imaging system

    Fig. 1. Rotating scanning infrared polarization imaging system

    Download full size
    View in Article
    Armature reaction of rotating scanning polarization filtering devices

    Fig. 2. Armature reaction of rotating scanning polarization filtering devices

    Download full size
    View in Article
    Change of surface temperature of PCB stator winding

    Fig. 3. Change of surface temperature of PCB stator winding

    Download full size
    View in Article
    Layout of components in infrared imaging system

    Fig. 4. Layout of components in infrared imaging system

    Download full size
    View in Article
    Experimental scene for effect of near-field radiation on infrared polarized image quality

    Fig. 5. Experimental scene for effect of near-field radiation on infrared polarized image quality

    Download full size
    View in Article
    Extinction ratio curve of WP25M-IRC polarizer

    Fig. 6. Extinction ratio curve of WP25M-IRC polarizer

    Download full size
    View in Article
    Comparison of polarization information for blackbody radiation source

    Fig. 7. Comparison of polarization information for blackbody radiation source

    Download full size
    View in Article
    Comparison of intensity for blackbody radiation source

    Fig. 8. Comparison of intensity for blackbody radiation source

    Download full size
    View in Article
    Comparison of polarization information for simulated sandy terrain

    Fig. 9. Comparison of polarization information for simulated sandy terrain

    Download full size
    View in Article
    Intensity comparison for simulated sandy terrain

    Fig. 10. Intensity comparison for simulated sandy terrain

    Download full size
    View in Article
    Temperature-dependent trend of image quality evaluation metrics for blackbody radiation sources

    Fig. 11. Temperature-dependent trend of image quality evaluation metrics for blackbody radiation sources

    Download full size
    View in Article
    Temperature-dependent trend of image quality evaluation metrics for simulated sandy scenes

    Fig. 12. Temperature-dependent trend of image quality evaluation metrics for simulated sandy scenes

    Download full size
    View in Article
    Distributed stator winding

    Fig. 13. Distributed stator winding

    Download full size
    View in Article
    Waveform stator winding

    Fig. 14. Waveform stator winding

    Download full size
    View in Article
    Improved winding arrangement

    Fig. 15. Improved winding arrangement

    Download full size
    View in Article
    Improved distributed waveform PCB stator winding

    Fig. 16. Improved distributed waveform PCB stator winding

    Download full size
    View in Article
    Surface temperature rise curve of PCB waveform stator winding

    Fig. 17. Surface temperature rise curve of PCB waveform stator winding

    Download full size
    View in Article
    Images comparison of systems using different stator windings

    Fig. 18. Images comparison of systems using different stator windings

    Download full size
    View in Article

    • Table 1. Comparison of image evaluation metrics for blackbody radiation sources

      View table
      View in Article

      Table 1. Comparison of image evaluation metrics for blackbody radiation sources

      温度/℃SSIMMSEPSNR
      300.745693.11319.723
      400.6361 680.67515.876
      500.5423 900.91112.219
      600.4925 852.23710.458
      68.50.4587 517.2859.370

    • Table 2. Comparison of image evaluation metrics for simulated sandy scenes

      View table
      View in Article

      Table 2. Comparison of image evaluation metrics for simulated sandy scenes

      温度/℃SSIMMSEPSNR
      300.867212.64424.854
      400.759899.48618.591
      500.7051 523.38816.303
      600.6153 942.77312.173
      68.50.5814 140.66311.960
    Tools

    Get Citation

    Copy Citation Text

    Weiyun MAO, Rong XIAO, Wenrong SI, Shaojing WANG, Ye QIU, Junzhuo ZHOU, Jia HAO, Yiting YU. Impact of system thermal accumulation on working performance of self-developed infrared polarization imaging system[J]. Optics and Precision Engineering, 2025, 33(5): 702

    Download Citation

    EndNote(RIS)BibTexPlain Text
    Set citation alerts for article
    Save article for my favorites
    Paper Information

    Category:

    Received: Nov. 9, 2024

    Accepted: --

    Published Online: May. 20, 2025

    The Author Email:

    DOI:10.37188/OPE.20253305.0702

    Topics

    laser devices and laser physics
    Lasers and Laser Optics
    Laser physics
    laser manufacturing
    Instrumentation, Measurement and Metrology