Multi-scale deep convolutional neural network-based satellite image target detection method

A neural network and deep convolution technology, applied in the field of satellite image target detection based on multi-scale deep convolutional neural network, can solve the problems of unsatisfactory detection effect, lack of generalization ability of image distribution, small satellite image objects, etc. Detection results and the ability to distinguish different objects, improved detection results, and strong robustness

Inactive Publication Date: 2020-04-10
CHONGQING GEOMATICS & REMOTE SENSING CENT
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Problems solved by technology

[0003] However, due to the huge size of satellite images and the relatively small objects in them, the lack of training data for high-quality satellite images, etc., it is challenging to use satellite images for target detection.
For example: the detection effect of small objects and dense object groups in satellite imagery is not satisfactory; existing object detection algorithms lack certain generalization ability for uncommon sca

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  • Multi-scale deep convolutional neural network-based satellite image target detection method
  • Multi-scale deep convolutional neural network-based satellite image target detection method
  • Multi-scale deep convolutional neural network-based satellite image target detection method

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[0042] The specific implementation manner and working principle of the present invention will be further described in detail below in conjunction with the accompanying drawings.

[0043] Such as figure 1 As shown, a satellite image target detection method based on multi-scale deep convolutional neural network, the specific steps are as follows:

[0044] Step 1: Collect satellite image training data sets and perform sample labeling;

[0045] In this example, the samples marked by the sample include a car sample dataset, a building plane sample dataset, an airplane sample dataset, a ship sample dataset and an airport sample dataset, wherein:

[0046] The car sample data set adopts the COWC data set, based on the GSD scale of 15cm, the image is processed by Gaussian check, and a frame of 3m is marked for each car on the GSD scale of 30cm, and a total of 13303 samples are marked;

[0047] The architectural plane sample data set adopts the SpaceNet data set, and the samples are m...

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Abstract

The invention discloses a multi-scale deep convolutional neural network-based satellite image target detection method. The method comprises the steps of: collecting a satellite image training data set, and carrying out sample labeling; preprocessing the satellite image training data set; building a multi-scale deep convolutional neural network; inputting the preprocessed training data set into a target detection framework based on the multi-scale deep convolutional neural network to perform training so as to obtain a trained target detection neural network; and inputting a to-be-detected satellite image set, performing target detection by adopting the trained target detection neural network, and outputting an identification result. With the method adopted, the accuracy of the result of thedetection of fine-grained characteristics by the network is improved; the capability of the network in distinguishing different objects is improved; and the effect of the detection of small objects and dense object groups is improved. The method has higher robustness and can effectively improve target detection efficiency and lower hardware requirements.

Description

technical field [0001] The invention relates to the technical field of detecting multi-scale satellite image targets based on convolutional neural networks, in particular to a satellite image target detection method based on multi-scale deep convolutional neural networks. Background technique [0002] In recent years, the target detection algorithm based on deep learning has greatly improved its efficiency, but there are still a series of problems based on satellite image processing. Satellite imagery is a very important resource. It can be used to measure land resources, detect ground conditions and record changes in the ground with a long-term perspective. [0003] However, due to the huge size of satellite images and the relatively small objects in them, and the lack of training data of high-quality satellite images, it is full of challenges to use satellite images for object detection. For example: the detection effect of small objects and dense object groups in satelli...

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Application Information

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IPC IPC(8): G06K9/00G06N3/04G06N3/08
CPCG06N3/08G06V20/13G06V2201/07G06N3/045
Inventor 丁忆李朋龙曾安明李晓龙马泽忠肖禾罗鼎段松江胡艳王岚陈静刘金龙刘朝晖魏文杰谭攀范文武林熙刘建叶涛袁力
Owner CHONGQING GEOMATICS & REMOTE SENSING CENT
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