[1] Kanjir U, Greidanus H, Oštir K. Vessel detection and classification from spaceborne optical images: A literature survey[J]. Remote sensing of environment, 207, 1-26(2018).

[2] Iervolino P[M]. Ship detection with SAR: modelling, designing and real data validation(2016).

[3] Abileah R. Surveying coastal ship traffic with LANDSAT[C](2009).

[4] A Z D, C Y Y A , B B W A et al. An approach for visual attention based on biquaternion and its application for ship detection in multispectral imagery[J]. Neurocomputing, 76, 9-17(2012).

[5] Wu G, Leeuw JD, Skidmore AK et al. Performance of Landsat TM in ship detection in turbid waters[J]. International Journal of Applied Earth Observation & Geoinformation, 11, 54-61(2009).

[6] Xing Q, Meng R, Lou M et al. Remote Sensing of Ships and Offshore Oil Platforms and Mapping the Marine Oil Spill Risk Source in the Bohai Sea[J]. Aquatic Procedia, 3, 127-132(2015).

[7] Li L, Yu J, Chen F. TISD: A Three Bands Thermal Infrared Dataset for All Day Ship Detection in Spaceborne Imagery[J]. Remote Sensing, 14, 5297(2022).

[8] Li L, Jiang L, Zhang J et al. A Complete YOLO-Based Ship Detection Method for Thermal Infrared Remote Sensing Images under Complex Backgrounds[J]. Remote Sensing, 14, 1534(2022).

[9] Qi L, Hu Z, Zhou X et al. Multi-Sensor Fusion of SDGSAT-1 Thermal Infrared and Multispectral Images[J]. Remote Sensing, 14, 6159(2022).

[10] Masuda K. Infrared sea surface emissivity including multiple reflection effect for isotropic Gaussian slope distribution model[J]. Remote Sensing of Environment, 103, 488-496(2006).

[11] Li H, Pinel N, Bourlier C. Polarized infrared reflectivity of 2D sea surfaces with two surface reflections[J]. Remote Sensing of Environment, 147, 145-155(2014).

[12] NI Xin-Yue, YU Shu-Tian, TANG Yu-Jun et al. The research on polarimetric detection capability of ship targets in the sea fog[J]. J. Infrared Millim. Waves, 40, 96-101(2021).

[13] Choi J H, Kim J H, Jung I H et al. Study on IR Signature Characteristics for different Transmittance over the Korean South Sea during Summer and Winter Seasons[J]. Journal of the Korea Institute of Military Science and Technology, 13, 320-329(2010).

[14] Neele F. Infrared ship signature analysis and optimisation[J]. Proceedings of Spie the International Society for Optical Engineering, 5811, 188-198(2005).

[15] Milewski S, Dulski R, Kastek M et al. Modification of infrared signature of naval vessels[J]. Proceedings of SPIE-The International Society for Optical Engineering, 8355, 83551H(2012).

[16] Kim Y S. A Study on the Infrared Signature of a Naval Ship under the Marine Climate[J]. Journal of the Society of Naval Architects of Korea, 49, 264-272(2012).

[17] Kim Y S. A Study on Effect of the Solar Elevation on the Ship IR Signature[J]. Journal of Ocean Engineering and Technology, 24, 38-45(2010).

[18] Qin D Z, Zhang J S, Pei S Y et al. Prediction of Point of Impact of Anti-Ship Missile-An Approach Combining Target Geometic Features, Circular Error Probable (CEP) and Laser Fuze[J]. Optik-International Journal for Light and Electron Optics, 202, 163587(2019).

[19] Chen Wei. Study on emissivity and reflectivity of target coating material in infrared band[C](2021).

[20] Zhou X, Ni X, Zhang J et al. A novel detection performance modular evaluation metric of space-based infrared system[J]. Optical and Quantum Electronics, 54(2022).