Aerial photo shooting method and system in investigation of traffic accident scene by using unmanned aerial vehicle (UVA)

Abstract

The invention discloses an aerial photo shooting method and system in investigation of a traffic accident scene by using an unmanned aerial vehicle (UVA). The method comprises the steps: selecting a corresponding traffic accident scene UVA low-altitude shooting scheme according to whether to perform three-dimensional scene reconstruction or scene animation simulation, wherein traffic accident scene UVA low-altitude shooting schemes comprise, but not limited to, a global-scope Chinese character gong-shaped tour vertical high angle shot scheme and a combined shooting scheme, and the combined shooting scheme consists of the global-scope Chinese character gong-shaped tour vertical high angle shot scheme and a local three-dimensional scene multi-level surrounding tilt shooting scheme by superposition; selecting and computing shooting parameters of the UVA according to the selected UVA low-altitude shooting scheme; shooting the traffic accident scene according to the selected UVA low-altitude shooting scheme and the shooting parameters of the UVA, so as to obtain an aerial photo sequence of the traffic accident scene. The method and system disclosed by the invention have the advantages of high maneuverability, high efficiency, completeness and high accuracy, and can be widely applied to the field of UVA application.

Description

technical field [0001] The invention relates to the application field of unmanned aerial vehicles, in particular to an aerial image acquisition method and system for unmanned aerial vehicles to investigate traffic accident scenes. Background technique [0002] The traditional road traffic accident scene investigation method is mainly to record the geometric information of the accident scene by the traffic police through simple methods such as measuring distance, observation and judgment, and manual drawing, so as to realize the purpose of investigation. These traditional methods have defects such as low efficiency, poor precision, and the inability to conduct secondary verification on the accident scene, which cannot meet the growing high requirements of people. The method of recreating the traffic accident scene based on the real scene can provide a powerful judgment basis for liability judgment, cause analysis, insurance claim settlement, and judicial appraisal, and genera...

AI Technical Summary

Problems solved by technology

The drawing modeling of the traditional manual measurement method takes a long time and the effect deviates greatly from the actual situation. It can only be used to reproduce the overview of the scene, and many details cannot be displayed.

Both the 3D laser scanning method and the photogrammetry method require the equipment to be able to surround the accident site for measurement, and the movement efficiency is low, and the corresponding equipment is relatively heavy. Generally, it must be loaded on the measurement vehicle, and the surrounding measurement

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