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Hyperspectral open set classification method based on Euclidean distance and deep learning

A Euclidean distance and deep learning technology, applied in the field of image processing, can solve problems such as low precision, poor robustness and generalization, and large fluctuations in unknown target detection performance, and achieve the effect of improving classification accuracy

Active Publication Date: 2020-12-29
NAT UNIV OF DEFENSE TECH
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Problems solved by technology

Therefore, in the actual use process, the robustness and generalization of comparison file 2 and comparison file 3 are poor, and the performance of unknown target detection fluctuates greatly
[0006] To sum up, the challenge of hyperspectral open set classification tasks still needs to be solved; secondly, the existing hyperspectral open set classification methods have the problems of difficult parameter adjustment and low accuracy, which need to be improved through further research Or propose a new open set classification method

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  • Hyperspectral open set classification method based on Euclidean distance and deep learning
  • Hyperspectral open set classification method based on Euclidean distance and deep learning
  • Hyperspectral open set classification method based on Euclidean distance and deep learning

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[0069] Below in conjunction with the emulation experiment of specific embodiment and accompanying drawing, the present invention is described in further detail:

[0070] The hardware environment that the present invention implements simulation experiment is: Xeon(R)W-2123CPU@3.60GHz×8, memory 16GiB, GPU TITAN Xp; software platform: TensorFlow2.0 and keras 2.2.4.

[0071] The hyperspectral data set used in the simulation experiment of the present invention is the Houston hyperspectral image, provided by the GRSS data fusion competition in 2013. The dataset contains 144 bands with an image size of 349 × 1905 pixels and a spatial resolution of 2.5m. The data set contains 15 types of ground objects. In the simulation experiment, 9 types are randomly selected as known training models, and the remaining 6 types are not involved in training as unknown types.

[0072] refer to figure 1 The specific steps of the present invention are further described in detail. Proceed as follows...

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Abstract

The invention belongs to the technical field of image processing, and discloses a hyperspectral open set classification method based on Euclidean distance and deep learning. The method comprises the following steps: firstly, constructing a category center of each known category, a category prediction function based on an Euclidean distance and a loss function based on the Euclidean distance, and training and optimizing a deep learning network model; secondly, combining a box line graph method and an extreme value theory Weibull distribution model, analyzing and fitting the distance between input data and the category center of each known category, thereby achieving constraint on each known classification boundary, and then achieving judgment on unknown categories. Specifically, a box linegraph is used for providing the number of abnormal points needed for fitting the Weibull distribution model; and judging whether a Weibull model is used or the upper edge of the box line graph is usedfor judging unknown classes according to the number of the abnormal points. Aiming at the open set classification problem in the hyperspectral field, the method is simple, practical, high in classification precision and high in robustness.

Description

technical field [0001] The invention belongs to the technical field of image processing, and relates to a hyperspectral open set classification method based on Euclidean distance and deep learning. In the testing process, the invention can not only accurately classify the known classes appearing in the training process, but also identify and reject the unknown classes not appearing in the training process. Background technique [0002] Hyperspectral classification technology is a technology that uses spectral information and spatial information to classify each pixel in hyperspectral images, and has great application value in national defense and civilian fields. In recent years, with the rise of deep learning technology, classification models based on convolutional neural networks and their derivative models (such as residual networks, recurrent networks, and densely connected networks) have gradually become important methods in the field of hyperspectral classification. ...

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Application Information

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IPC IPC(8): G06K9/62
CPCG06F18/217G06F18/24137G06F18/2415
Inventor 江天刘煜侯静彭元喜周侗
Owner NAT UNIV OF DEFENSE TECH
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