Acta Optica Sinica, Volume. 43, Issue 15, 1510001(2023)
Research and Application of Thermal Imaging Mode and Image Processing Technology
[1] Bai T Z, Jin W Q[M]. Principle and technology of photoelectric imaging(2006).
[2] Chen B L. Development state of IRFPA imaging device[J]. Infrared and Laser Engineering, 34, 1-7(2005).
[3] Jin W Q, Sui J, Dong L Q. Progress of researches in scene-based nonuniformity correction for IRFPA[J]. Infrared and Laser Engineering, 36, 70-75(2007).
[4] Hayat M M, Torres S N, Armstrong E et al. Statistical algorithm for nonuniformity correction in focal-plane arrays[J]. Applied Optics, 38, 772-780(1999).
[5] Redlich R, Figueroa M, Torres S N et al. Embedded nonuniformity correction in infrared focal plane arrays using the Constant Range algorithm[J]. Infrared Physics & Technology, 69, 164-173(2015).
[6] Scribner D A, Sarkady K A, Caulfield J T et al. Nonuniformity correction for staring IR focal plane arrays using scene-based techniques[J]. Proceedings of SPIE, 1308, 224-233(1990).
[7] Qian W X, Chen Q, Gu G H. Space low-pass and temporal high-pass nonuniformity correction algorithm[J]. Optical Review, 17, 24-29(2010).
[8] Li Y Y, Jin W Q, Li S et al. A method of sky ripple residual nonuniformity reduction for a cooled infrared imager and hardware implementation[J]. Sensors, 17, 1070-1087(2017).
[9] Leng H B, Yi B, Xie Q S et al. Adaptive nonuniformity correction for infrared images based on temporal moment matching[J]. Acta Optica Sinica, 35, 0410003(2015).
[10] Ratliff B M, Hayat M, Hardie R. Algebraic scene-based nonuniformity correction in focal plane arrays[J]. Proceedings of SPIE, 4372, 114-124(2001).
[11] Hardie R C, Hayat M M, Armstrong E et al. Scene-based nonuniformity correction with video sequences and registration[J]. Applied Optics, 39, 1241-1250(2000).
[12] Liu C L, Jin W Q, Fan Y J et al. Infrared non-uniformity correction algorithm based on virtual perimeter diaphragm strips[J]. Acta Electronica Sinica, 39, 1159-1164(2011).
[13] Zuo C, Chen Q, Gu G H et al. Improved interframe registration based nonuniformity correction for focal plane arrays[J]. Infrared Physics & Technology, 55, 263-269(2012).
[14] Scribner D A, Sarkady K A, Kruer M R et al. Adaptive nonuniformity correction for IR focal-plane arrays using neural networks[J]. Proceedings of SPIE, 1541, 100-109(1991).
[15] Zhang T X, Shi Y. Edge-directed adaptive nonuniformity correction for staring infrared focal plane arrays[J]. Optical Engineering, 45, 016402(2006).
[16] Liu X, Xu C, Jin W Q et al. Neural network non-uniformity correction by means of frames motion estimation and its hardware implementation[J]. Transactions of Beijing Institute of Technology, 30, 1331-1335, 1349(2010).
[17] Rong S H, Zhou H X, Qin H L et al. Guided filter and adaptive learning rate based non-uniformity correction algorithm for infrared focal plane array[J]. Infrared Physics & Technology, 76, 691-697(2016).
[18] He Z W, Cao Y P, Dong Y F et al. Single-image-based nonuniformity correction of uncooled long-wave infrared detectors: a deep-learning approach[J]. Applied Optics, 57, D155-D164(2018).
[19] Lai R, Guan J T, Xu K R et al. Cascade residual learning method for infrared image nonuniformity correction[J]. Journal of Xidian University, 46, 13-19(2019).
[20] Högasten N. Scene based non-uniformity correction systems and methods[P].
[21] Xu Z L, Lu D M, Wang L P et al. Fringe non-uniformity correction method based on gray difference estimation[J]. Acta Optica Sinica, 41, 0511001(2021).
[22] Wang X, Xia R Q, Jin W Q et al. Technology progress of infrared polarization imaging detection[J]. Infrared and Laser Engineering, 43, 3175-3182(2014).
[23] Yang M, Xu W B, Tian Y Z et al. Time-sharing infrared polarization imaging system for moving target detection[J]. Acta Optica Sinica, 40, 1511001(2020).
[24] Tyo J S, Goldstein D L, Chenault D B et al. Review of passive imaging polarimetry for remote sensing applications[J]. Applied Optics, 45, 5453-5469(2006).
[25] Gurton K P, Felton M, Mack R T et al. MidIR and LWIR polarimetric sensor comparison study[J]. Proceedings of SPIE, 7672, 767205(2010).
[26] Gao S K, Gruev V. Gradient-based interpolation method for division-of-focal-plane polarimeters[J]. Optics Express, 21, 1137-1151(2013).
[27] Liu H Z, Shi Z L, Feng B. Mechanism and calibration of non-uniformity for IR polarization imagery obtained with integrated micro-polarizer array[J]. Optics and Precision Engineering, 26, 480-491(2018).
[28] Li J Y, Bao L, Jiang S et al. Inverse design of multifunctional plasmonic metamaterial absorbers for infrared polarimetric imaging[J]. Optics Express, 27, 8375-8386(2019).
[30] Bai P J, Yao L B, Chen N et al. Progress of pixel-ADC level digital long wave cooled infrared focal plane array detector[J]. Infrared Technology, 40, 301-308(2018).
[31] Richards A A, Cromwell B K. Extending IR camera scene radiance dynamic range with cyclic integration times[J]. Proceedings of SPIE, 5782, 93-99(2005).
[32] Richards A A, D'Souza S. A novel NIR camera with extended dynamic range[J]. Proceedings of SPIE, 6205, 62050G(2006).
[33] Hong W Q, Yao L B, Ji R B et al. A super-frame processing method for infrared image based on accumulation of different integration time frame[J]. Optics and Precision Engineering, 24, 1490-1500(2016).
[34] Dun X, Fan Y J, Jin W Q et al. Relationship between integral time and two-point non-uniform correction for HDR imaging of cooled focal plane array[J]. Acta Armamentarii, 36, 839-845(2015).
[35] Tanida J, Kumagai T, Yamada K et al. Thin observation module by bound optics (TOMBO): concept and experimental verification[J]. Applied Optics, 40, 1806-1813(2001).
[36] Qiu S, Ni Y, Jin W Q et al. FOV modeling of multi-aperture superposition compound eye based on micro-surface fiber faceplate[J]. Optics and Precision Engineering, 23, 3018-3025(2015).
[37] Shankar M, Pitsianis N P, Brady D J. Compressive video sensors using multichannel imagers[J]. Applied Optics, 49, B9-B17(2010).
[38] Shankar M, Willett R, Pitsianis N et al. Thin infrared imaging systems through multichannel sampling[J]. Applied Optics, 47, B1-B10(2008).
[39] Song Y F, Hao Q, Cao J et al. Research and development of Wide-Field-of-View bionic compound eye photoelectric imaging detection technology[J]. Infrared and Laser Engineering, 51, 20210593(2022).
[40] Luo L, Yang J G, Qiu S et al. Theory and technology of bionic thermal imaging with multi-aperture distributed and partially overlapped field of view[J]. Infrared and Laser Engineering, 50, 20210062(2021).
[41] Yang J G, Luo L, Jin W Q et al. Bionic thermal imaging with cross-shaped four-aperture partially overlapped field of view[J]. Optics and Precision Engineering, 30, 1019-1028(2022).
[42] Zhu J, Jin W Q, Li L et al. Fusion of the low-light-level visible and infrared images for night-vision context enhancement[J]. Chinese Optics Letters, 16, 013501(2018).
[43] Liu J N, Jin W Q, Li L et al. Visible and infrared thermal image fusion algorithm based on self-adaptive reference image[J]. Spectroscopy and Spectral Analysis, 36, 3907-3914(2016).
[44] He B Y, Zhang Z Q, Jiang X Y et al. Real-time coaxial color fusion system[J]. Optics and Precision Engineering, 26, 2854-2862(2018).
[45] Liu M C. High-dynamic-range fusion and visualization of thermal images[D](2019).
[46] Kuang X D, Sui X B, Liu Y et al. Single infrared image enhancement using a deep convolutional neural network[J]. Neurocomputing, 332, 119-128(2019).
[47] Li S, Han B F, Yu Z J et al. I2V-GAN: unpaired infrared-to-visible video translation[C], 3061-3069(2021).
[48] Zhu J Y, Park T, Isola P et al. Unpaired image-to-image translation using cycle-consistent adversarial networks[C], 2242-2251(2017).
[49] Kuang X D, Zhu J F, Sui X B et al. Thermal infrared colorization via conditional generative adversarial network[J]. Infrared Physics & Technology, 107, 103338(2020).
[50] Jin M L, Jin W Q, Li Y Y et al. Temporal high-pass non-uniformity correction algorithm based on grayscale mapping and hardware implementation[J]. Proceedings of SPIE, 9622, 962210(2015).
[51] Yuan P, Tan Z Y, Zhang X et al. Study on infrared imaging detection and differential spectral filtering detection method of industrial gas leakage[J]. Infrared and Laser Engineering, 51, 20210714(2022).
[52] Zhang X, Jin W Q, Li J K et al. Minimum detectable gas concentration performance evaluation method for gas leak infrared imaging detection systems[J]. Applied Optics, 56, 2952-2959(2017).
[53] Li S, Jin W Q, Xia R Q et al. Radiation correction method for infrared polarization imaging system with front-mounted polarizer[J]. Optics Express, 24, 26414-26430(2016).
[54] Liu M C, Li S, Li L et al. Infrared HDR image fusion based on response model of cooled IRFPA under variable integration time[J]. Infrared Physics & Technology, 94, 191-199(2018).
[55] Tao X Y, Jin W Q, Yang J G et al. Multi-integration time adaptive selection method for superframe high-dynamic-range infrared imaging based on grayscale information[J]. Sensors, 22, 4258(2022).
[56] Li S, Jin W Q, Li L et al. Fusion algorithm based on grayscale-gradient estimation for infrared images with multiple integration times[J]. Infrared Physics & Technology, 105, 103179(2020).
[57] Wang M H, Li S, Jin W Q et al. Testing and evaluation method for HDR thermal imaging system dynamic range performance[J]. Infrared and Laser Engineering, 50, 20210526(2021).
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Weiqi Jin, Li Li, Xia Wang. Research and Application of Thermal Imaging Mode and Image Processing Technology[J]. Acta Optica Sinica, 2023, 43(15): 1510001
Category: Image Processing
Received: Mar. 29, 2023
Accepted: May. 9, 2023
Published Online: Aug. 3, 2023
The Author Email: Weiqi Jin (jinwq@bit.edu.cn)