Research on Target Recognition Method Based on Laser Point Cloud Data

Abstract

High resolution 3d point cloud data obtained by 3d laser scanning system has become a research hotspot and difficulty in recent years due to its large data volume, irregular data and high scene complexity. Target detection is the basis of scene analysis and understanding, which provides the underlying object and analysis basis for high-level scene understanding. Based on high resolution three-dimensional point cloud data of target recognition and tracking problem both in theory and application is facing great challenge, is a new research topic in this paper, according to the laser point cloud data processing as the research object, analyses the characteristics of lidar point cloud data and data processing of train of thought, analysis of lidar point cloud data storage and retrieval strategy, on the basis of the target recognition based on the laser point cloud data. The lidar data are distributed discretely in form. The discretization here refers to the irregular distribution of the positions and intervals of exponential data points in the three-dimensional space, namely the irregular distribution of data. In recent years, with the rise of deep learning and the large-scale application of deep learning in image detection, speech recognition, text processing and other related fields, it has become one of the current important research topics to use the method of deep learning for target recognition of three-dimensional point cloud data. Its main idea is to learn hierarchical feature expression through supervised way and describe the object from the bottom to the top. This method can effectively improve the ability of object feature representation and the performance of object recognition. Deep learning is also widely used in object recognition, object detection, scene segmentation and other image processing. Therefore, this paper adopts the method of deep learning to classify and identify 3d objects.