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引用次数: 3
摘要
近年来,不同类型的图像(热红外(TIR)、可见光谱和近红外(NIR))的转换存在许多具有挑战性的问题。其他类型的相机可能缺乏某些类型的常用相机的能力和功能,产生不同类型的图像。根据相机的功能,在特定条件下(黑暗、雾、夜晚、白天和人造光)观察场景可能会出现不同的应用程序。我们需要从一个领域跳到另一个领域,以便更好地理解这个场景。本文提出了一种全自动模型(GVTI-AE),利用AutoEncoder方法将图像转换成不同类型的充满活力的逼真图像,该模型既不需要预处理,也不需要后处理,也不需要用户输入。使用GVTI-AE模型进行的实验表明,在广泛可用的数据集(Tecnocampus Hand Image Database, Carl dataset和IRIS Thermal/Visible Face Database)中产生的感知逼真的结果。
Generating Spectrum Images from Different Types - Visible, Thermal, and Infrared Based on Autoencoder Architecture (GVTI-AE)
Recently, numerous challenging problems have existed for transforming different image types (thermal infrared (TIR), visible spectrum, and near-infrared (NIR)). Other types of cameras may lack the ability and features of certain types of frequently-used cameras that produce different types of images. Based on camera features, different applications might emerge from observing a scenario under specific conditions (darkness, fog, night, day, and artificial light). We need to jump from one field to another to understand the scenario better. This paper proposes a fully automatic model (GVTI-AE) to manipulate the transformation into different types of vibrant, realistic images using the AutoEncoder method, which requires neither pre-nor post-processing or any user input. The experiments carried out using the GVTI-AE model showed that the perceptually realistic results produced in the widely available datasets (Tecnocampus Hand Image Database, Carl dataset, and IRIS Thermal/Visible Face Database).
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