[1] M H DAVY, C P GARNER, P KIRCHEN et al. Two-colour pyrometry measurements of low-temperature combustion using borescopic imaging(2021).

[2] D PAN, Z JIANG, Z CHEN et al. Temperature measurement and compensation method of blast furnace molten iron based on infrared computer vision. IEEE Transactions on Instrumentation and Measurement, 68, 3576-3588(2018).

[3] G SORRENTINO, P SABIA, M JOANNON et al. Influence of preheating and thermal power on cyclonic burner characteristics under mild combustion. Fuel, 233, 207-214(2018).

[4] Shang SUN. Study on radiation temperature measurement under high temperature background(2021).

[5] Yongjin ZHANG. Research on temperature field measurement system based on digital image processing technology(2017).

[6] Y TANG, J ZHANG, Y MENGKUN et al. Deep learning-based super-resolution images for synchronous measurement of temperature and deformation at elevated temperature. Optik, 226, 1657-1664(2021).

[7] Huajie SUN, Shihong SHI, Tuo SHI et al. Research of close-loop control of molten pool temperature during laser cladding process based on color CCD. Laser Technology, 42, 745-750(2018).

[8] V FIRAGO, W WOJCIK. High-temperature three-colour thermal imager. Przegląd Elektrotechniczny, 91, 208-214(2015).

[9] C HAO, Z LIU, H XIE et al. Real-time measurement method of melt pool temperature in the directed energy deposition process. Applied Thermal Engineering, 177, 115475(2020).

[10] Zhanwei LIU, Ce HAO, Huimin XIE et al. An optimized temperature measurement method based on single camera colorimetric temperature measurement system. China.

[11] Ce HAO, Zhanwei LIU. Application of single-camera melt pool surface temperature field measurement technique in LENS process, 1704(2020).

[12] Yuan SUN, Xiaoqi PENG, Sheng LI et al. Research on dynamic range of CCD radiation temperature measurement. Transducer and Microsystem Technologies, 24-26(2008).

[13] J HAN, C ZHOU, P DUAN et al. Neuromorphic camera guided high dynamic range imaging, 1730-1739(2020).

[14] N A RIZA, M A MAZHAR. 177 dB linear dynamic range pixels of interest DSLR CAOS camera. IEEE Photonics Journal, 11, 1-10(2019).

[15] H BOYERT. Blackbody radiation in classical physics: a historical perspective. American Journal of Physics, 86, 495-509(2018).

[16] Hui LI. Study on flame temperature filed three-dimensional reconstructions based on emission spectral tomography(2007).

[17] Ce HAO, Zhanwei LIU. Colorimetric temperature measurement method of two-band based on single CCD, 39-40(2018).

[18] M HONNER, P HONNEROVA. Survey of emissivity measurement by radiometric methods. Applied Optics, 54, 669-683(2015).

[19] Jiwei LIU. Visible and near-infrared two-color imaging temperature measurement technology(2020).

[20] Xianjie SONG, Rongsheng HU. Conversion of illuminance to irradiance. Lamps & Lighting, 20-21(1997).

[21] Tairan FU, Xiaofang CHENG, Maohua ZHANG et al. Relationship between temperature range and wavelength bandwidth for multi band pyrometry. Spectroscopy and Spectral Analysis, 1994-1997+2005(2008).

[22] Lin ZHANG, Zhijie ZHANG, Yanfeng LI. Application of dual-waveband colorimetric temperature measurenment technology. Modern Electronics Technique, 42, 1-5(2019).

[23] Haibin WU, Tieyi ZHANG, Houwei ZHOU et al. Selection of two-color wavelengths in colorimetric temperature measurement of uncooled IRFPA. Journal of Atmospheric and Environmental Optics, 7, 385-389(2012).

[24] Yukun WANG, Chunsheng XIAO. Discussion on the key technology of infrared radiation temperature measurement. Changjiang Information & Communications, 45-46(2020).

[25] X CHEN, G TIAN, J WU et al. Feature-based registration for 3D eddy current pulsed thermography. IEEE Sensors Journal, 19, 6998-7004(2019).

[26] H MA, Z MAO, W FENG et al. Online in-situ monitoring of melt pool characteristic based on a single high-speed camera in laser powder bed fusion process. Applied Thermal Engineering, 211, 118515(2022).

[27] W FENG, Z Z MAO, Y YANG et al. Online defect detection method and system based on similarity of the temperature field in the melt pool. Additive Manufacturing, 54, 102760(2022).

[28] Zhanwei LIU, Heng MA, Huimin XIE et al. Online monitoring device and method for high speed high resolution high precision ultra-high temperature molten pool temperature field. China.

[29] P A HOOPER. Melt pool temperature and cooling rates in laser powder bed fusion. Additive Manufacturing, 22, 548-559(2018).