Abstract
Small inter-class and massive intra-class changes are important challenges in aircraft model recognition in the field of remote sensing. Although the aircraft model recognition algorithm based on the convolutional neural network (CNN) has excellent recognition performance, it is limited by sample sets and computing resources. To solve the above problems, we propose the bilinear discriminative extreme learning machine (ELM) network (BD-ELMNet), which integrates the advantages of the CNN, autoencoder (AE), and ELM. Specifically, the BD-ELMNet first executes the convolution and pooling operations to form a convolutional ELM (ELMConvNet) to extract shallow features. Furthermore, the manifold regularized ELM-AE (MRELM-AE), which can simultaneously consider the geometrical structure and discriminative information of aircraft data, is developed to extract discriminative features. The bilinear pooling model uses the feature association information for feature fusion to enhance the substantial distinction of features. Compared with the backpropagation (BP) optimization method, BD-ELMNet adopts a layer-by-layer training method without repeated adjustments to effectively learn discriminant features. Experiments involving the application of several methods, including the proposed method, to the MTARSI benchmark demonstrate that the proposed aircraft type recognition method outperforms the state-of-the-art methods.
Highlights
Aircraft type recognition is critical in both civil and military applications because it is a necessary component of target recognition in remote sensing images
The main contributions of this paper can be summarized as follows: (1) We propose a novel aircraft recognition framework that inherits the characteristics of the extreme learning machine (ELM)’s training speed and relies on convolution, MRELM-AE, and bilinear pooling to construct a three-level feature extractor, as a result of which the aircraft recognition model exhibits strong discrimination features
(2) We propose a novel discriminant MRELM-AE, which adds the manifold regularization to the objective of the ELM autoencoder (ELM-AE)
Summary
Aircraft type recognition is critical in both civil and military applications because it is a necessary component of target recognition in remote sensing images. The task is extremely difficult because of the existence of fine-grained features, which can cause small inter-class changes due to highly comparable subcategories and large intra-class changes due to variances in size, posture, and angle. These aircraft have distinct purposes and roles, they are visually similar
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