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Method for classifying and segmenting sparse point clouds by utilizing point cloud density and rotation information

A point cloud density and sparse point technology, applied in the direction of instruments, character and pattern recognition, computer components, etc., can solve the problems of increasing data volume, calculation cost, and low calculation accuracy

Active Publication Date: 2020-10-27
CHINA UNIV OF MINING & TECH (BEIJING)
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Problems solved by technology

[0016] The 3DCNN algorithm is a method based on voxel feature search, which indirectly converts the point cloud into a voxel grid for storage and then performs calculations. The accuracy is not high, not suitable for the use of point clouds in mining areas

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  • Method for classifying and segmenting sparse point clouds by utilizing point cloud density and rotation information
  • Method for classifying and segmenting sparse point clouds by utilizing point cloud density and rotation information
  • Method for classifying and segmenting sparse point clouds by utilizing point cloud density and rotation information

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Embodiment Construction

[0066] The idea of ​​this method closely revolves around the spatial structure correlation of rich and sparse point clouds, so as to use it to improve the accuracy and efficiency of classification and segmentation tasks. For the density and rotation information, this method designs a unique deep learning framework (step 3), which effectively enriches the spatial local correlation of sparse point clouds and greatly improves the performance of classification and segmentation, such as Figure 5 shown.

[0067] This method is divided into four steps, figure 2 It is an overview of the entire network process. Among them, step 2 is used to process the spatial coordinate information; step 3 is used to process the density and rotation information of the point cloud. Considering the variance of such information, an innovative deep learning network is designed in step 3 to provide such information, such as Figure 5 As shown, step 2 and step 3 are independent of each other, and the o...

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Abstract

The invention discloses a method for classifying and segmenting sparse point clouds by using point cloud density and rotation information. The method comprises the following steps of preprocessing thepoint clouds; analyzing the coordinate information of the sparse point cloud; analyzing the space and density information of the sparse point cloud; and point cloud classification and segmentation are performed in combination with the point cloud space coordinate features, the density and the rotation features. According to the method, through a point cloud preprocessing mode and mining and utilization of sparse point cloud space information and rotation information, the working mode of point cloud classification and segmentation is improved, classification and segmentation of point clouds (sparse point clouds and dense point clouds) with different densities are compared by adopting the algorithm, and the efficiency is improved by more than ten times; compared with the classification andsegmentation of the traditional machine learning method (filtering), the classification and segmentation of the sparse point cloud by using the method have the advantages that the precision is improved by 7% and is improved from 87% to 93%; and compared with a PoineNet algorithm and a 3DCNN algorithm, the precision is improved by 4%.

Description

technical field [0001] The invention relates to the technical field of point cloud classification and segmentation. Specifically, it is a method for classifying and segmenting sparse point clouds using point cloud density and rotation information. Background technique [0002] Lidar has been widely used in surveying and mapping engineering because of its unprecedented advantages in real-time and accurate acquisition of surface information. The point cloud is the most direct output of the lidar sensor, and it is an objective and detailed expression of all objects seen by the sensor's vision. However, exhaustive means large amounts of data and long-term calculations. Most researchers don't need exhaustive data, just focus on point clouds of regions of interest. Taking mining detection as an example, reclamation researchers pay attention to the growth status of vegetation in mining areas, and deformation monitoring researchers focus on changes in surface morphology during mi...

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): G06K9/62
CPCG06F18/2163G06F18/217G06F18/24Y02A90/10
Inventor 阎跃观严海旭戴华阳苏晓茹杨倩袁梅
Owner CHINA UNIV OF MINING & TECH (BEIJING)
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