基于筛选深度特征的红外图像目标识别方法

Infrared image target recognition method based on selected deep features

  • 摘要: 红外成像是现代战场侦察的重要手段,基于红外图像的目标识别技术可为情报解译提供重要支撑。针对红外图像目标识别,提出基于筛选深度特征的方法。设计适当结构的ResNet对红外图像进行特征学习,对于每个卷积层的输出特征图进行矢量化处理,获得相应的特征矢量。针对各个特征图的深度特征矢量,基于斯皮尔曼等级相关系数评价它们与原始图像的相关性。然后,通过门限判决算法选取若干具有高相关性的深度特征。经过筛选得到的深度特征可剔除了不必要的冗余成分,从而提升后续分类的精度和稳健性。采用联合稀疏表示模型对筛选得到的若干深度特征进行表征和分类,最终获取待识别样本的所属类别。因此,方法可有效结合ResNet多层次深度特征的鉴别力,从而提高最终的识别性能。实验在公开的中波红外目标图像数据集(MWIR)开展,利用原始测试样本、模拟噪声样本和模拟遮挡样本对方法性能进行测试和分析。实验结果表明:相比现有的部分红外目标识别方法,提出方法可取得更强的有效性和稳健性。

     

    Abstract: Infrared imaging is an important means of modern battlefield reconnaissance, and target recognition technology based on infrared images can provide important support for intelligence interpretation. Aiming at target recognition in infrared images, a method based on selected deep features was proposed. A ResNet with a proper structure was designed to perform feature learning on infrared images, and the output feature maps from each convolutional layer was vectorized to obtain a corresponding feature vector. For the deep feature vectors of different feature maps, their correlations with the original image were evaluated based on the Spearman rank correlation coefficient. Afterwards, several deep features with high correlations were selected through the threshold decision algorithm. The deep features obtained after selection can eliminate unnecessary redundant components, thereby improving the accuracy and robustness of subsequent classification. The joint sparse representation model was used to characterize and classify the selected deep features, and finally the category of the sample can be identified. Therefore, the proposed method can effectively combine the discrimination of the multi-level deep features learned from ResNet, thereby improving the final recognition performance. The experiments were carried out in the public mid-wave infrared target image dataset (MWIR), using the original test samples, simulated noisy samples and simulated occluded samples to test and analyze the performance of the method. The experimental results show that the proposed method can achieve stronger effectiveness and robustness compared with some existing infrared target recognition ones.

     

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