舰船目标在日出条件下的红外辐射特性与探测研究

    Infrared radiation characteristics and detection of ship targets under sunrise conditions

    • 摘要: 日出时段,舰船目标与海面背景的红外辐射差异较小,导致目标探测难度增大。针对该问题,基于FLUENT软件构建了舰船-海洋-大气非稳态热耦合模型,结合Elfouhaily海谱生成了大范围动态海面场景,并借助通用大气辐射传输软件(CART)计算了太阳辐射、天空辐射及大气透过率。通过求解目标表面温度场与辐射传输方程,实现了舰船在8 μm~12 μm波段的高精度红外辐射特性仿真,并生成了多种观测条件下的红外图像。研究结果表明:夜间无太阳照射且环境温度较低,经过整个夜间的较低温环境,舰体表面温度与背景温度接近,目标红外特征与海面高度融合;日出后,受海面散射的太阳、天空等环境辐射的干扰,舰船目标的可探测性显著下降。然而,烟囱、雷达面板等局部热源仍呈现明显高亮特征,成为舰船目标识别中的关键区域。

       

      Abstract: During sunrise, the infrared radiation difference between ship target and sea surface background is small, which increases the difficulty of target detection. To address this issue, a ship-ocean-atmosphere unsteady thermal coupling model was constructed based on FLUENT software. Combined with the Elfouhaily sea spectrum, a large-scale dynamic sea surface scene was generated, and the solar radiation, sky radiation, and atmospheric transmittance were calculated using the combined atmospheric radiative transfer (CART) software. By solving target surface temperature field and radiative transfer equation, high-precision infrared radiation characteristics of the ship in 8 μm~12 μm band were simulated, and infrared images under various observation conditions were generated.The results indicate that during nighttime, in the absence of solar irradiation and under low ambient temperature conditions, the ship hull surface temperature approaches the background temperature after prolonged exposure to the low-temperature environment throughout the night, resulting in a high degree of fusion between the target infrared signature and the sea surface. After sunrise, due to interference from environmental radiation such as sunlight and skylight scattered by the sea surface, the detectability of the ship target is significantly reduced. Nevertheless, local heat sources such as chimneys and radar panels remain conspicuously bright and serve as key features for ship target recognition.

       

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