Litcius/Paper detail

Laplacian Feature Pyramid Network for Object Detection in VHR Optical Remote Sensing Images

Wenhua Zhang, Licheng Jiao, Yuxuan Li, Zhongjian Huang, Haoran Wang

2021IEEE Transactions on Geoscience and Remote Sensing72 citationsDOI

Abstract

Except for multiscale features, high-frequency features are also crucial for the identification of many objects in object detection for very high resolution optical remote sensing (VHR-ORS) images but have not been considered yet. Due to the fact that the Laplacian pyramid consists of high-frequency information at each level, we propose a Laplacian feature pyramid (FP) network (LFPN) considering both low-frequency features and high-frequency features based on FP structure to improve the object detection performance of VHR-ORS images. FP-based structures are efficient to represent multiscale features. But, in general, FP-based structures, high-frequency features are not specially considered. Such high-frequency features are important to distinguish many ground objects with sufficient details. For example, texture features are critical to distinguish basketball_court and tennis_court. The construction of LFPN consists of a bottom-up pathway, Laplacian pathway, and a fusion pathway, which generate low-frequency pyramid, high-frequency pyramid, and compound pyramid, respectively. The bottom-up pathway follows the computation flow of the backbone convolutional neural networks (CNNs) which is similar to general FP-based structures. The Laplacian pathway extracts the high-frequency features of objects through a trainable Laplacian operator. Finally, the low-frequency and high-frequency FPs are fused to generate the compound pyramid in efficient ways. To evaluate the performance of LFPN, we embed LFPN into both two-stage object detection (T-LFPN) systems and single-stage object detection (S-LFPN) systems to conduct experiments. Experiments on a public challenging ten-class data set NWPU VHR-10 demonstrate the superior performance of LFPN in both T-LFPN and S-LFPN systems and state-of-the-art performance of LFPN-based detectors.

Topics & Concepts

Pyramid (geometry)Computer scienceArtificial intelligenceFeature extractionComputer visionFeature (linguistics)Object detectionPattern recognition (psychology)Object (grammar)Convolutional neural networkRemote sensingGeologyMathematicsGeometryPhilosophyLinguisticsAdvanced Neural Network ApplicationsVideo Surveillance and Tracking MethodsRemote-Sensing Image Classification