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Keypoint Description by Descriptor Fusion Using Autoencoders

Zhuang Dai, Xinghong Huang, Weinan Chen, Chuangbing Chen, Li He, Shuhuan Wen, Hong Zhang

Year
2020
Citations
6

Abstract

Keypoint matching is an important operation in computer vision and its applications such as visual simultaneous localization and mapping (SLAM) in robotics. This matching operation heavily depends on the descriptors of the keypoints, and it must be performed reliably when images undergo conditional changes such as those in illumination and viewpoint. In this paper, a descriptor fusion model (DFM) is proposed to create a robust keypoint descriptor by fusing CNN-based descriptors using autoencoders. Our DFM architecture can be adapted to either trained or pre-trained CNN models. Based on the performance of existing CNN descriptors, we choose HardNet and DenseNet169 as representatives of trained and pre-trained descriptors. Our proposed DFM is evaluated on the latest benchmark datasets in computer vision with challenging conditional changes. The experimental results show that DFM is able to achieve state-of-the-art performance, with the mean mAP that is 6.45% and 6.53% higher than HardNet and DenseNet169, respectively.

Keywords

Artificial intelligenceComputer scienceDesign for manufacturabilityBenchmark (surveying)Matching (statistics)Pattern recognition (psychology)FusionComputer visionMathematicsEngineering

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