DOI number:10.1109/lgrs.2022.3167530

Journal:IEEE GEOSCIENCE AND REMOTE SENSING LETTERS

Key Words:Feature extraction,Detectors,Convolution,Shape,Object detection,Training,Remote sensing,Oriented object detection,remote sensing image (RSI),rotation-equivariant,rotation-invariant

Abstract:Object detection has attracted a lot of attention in the field of image automatic interpretation. Detectors based on convolution neural networks (CNNs) applied in natural scene images encode detection results with horizontal bounding boxes (HBBs), which can not accurately calibrate the position and shape of the arbitrary-orientation objects on remote sensing images (RSIs). To solve these issues, we propose an object detection framework named multi-oriented rotation-equivariant network (MORE-Net) in this letter. The MORE-Net consists of a multi-oriented rotating filter (MORF) and a multi-oriented ground objects detector. The MORF generates rotation-equivariant features by rotating canonical filter according to the predefined discrete directions. Equipped with MORF, the multi-oriented ground objects detector extracts rotation-invariant semantic representations for each decoded rotated region of interest (RRoI). We also propose area smooth (AS) L1 loss to impose tighter shape and position constraints to the RROIs. Extensive experiments and comprehensive evaluations on the large-scale DOTA dataset demonstrate the effectiveness of the proposed framework, which achieves a mean average precision (mAP) value of 81.27 on the DOTA-v1.0 dataset and a mAP value of 78.03 on the DOTA-v1.5 dataset.

Co-author:Xianwei Li,Peihua Cai,Puyun Liao,Tong Wang

Indexed by:Journal paper

Correspondence Author:Xiaodong Zhang,Guanzhou Chen

Document Type:J

Volume:19

ISSN No.:1545-598X

Translation or Not:no

Date of Publication:2022-04-14

Included Journals:SCI