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Near-real-time gradually expanding 3D land surface reconstruction in disaster areas by sequential drone imagery

Min‐Lung Cheng, M. Matsuoka, Wen Liu, Fumio Yamazaki

2021Automation in Construction32 citationsDOIOpen Access PDF

Abstract

The ability of drones to access disaster areas has been proven powerful and flexible for acquiring first-hand optical imagery data for environmental observation. However, such imagery data usually undergo postprocessing, and the three-dimensional (3D) products are mainly for accurate land surveys. The postprocessing procedure is too time-consuming to meet instant decision support and rescue response requirements. Therefore, this paper intends to develop a systematic workflow that is able to achieve on-the-fly 3D reconstruction in disaster areas by optical imagery sequentially acquired by drones. This study proposes a strategy to spatially link sequential images (SLSI) for image localization and suitable stereopair selection. In addition, the criteria for valid epipolar stereoapair determination are developed to make the 3D dense reconstruction more automatic and effective. The 3D digital land surface can be gradually reconstructed and expanded in the computer system while the drone is capturing new images. This paper utilizes the imagery dataset of collapsed buildings induced by the 2016 Kumamoto earthquake in Japan to simulate the more effective 3D reconstruction. Although the accuracy of the consequence is reported to be closely one meter, the mean data processing time for every image can achieve the level by approximately ten seconds while performing the proposed scheme on an iMac with Intel Core i5 and 16 GB random access memory (RAM). As a result, the efficiency and computational power needed are significantly reduced to support emergency applications soon after a disaster occurs.

Topics & Concepts

DroneComputer scienceWorkflowComputer visionEpipolar geometryArtificial intelligence3D reconstructionChange detectionScheme (mathematics)Real-time computingImage (mathematics)DatabaseBiologyMathematical analysisMathematicsGeneticsRobotics and Sensor-Based Localization3D Surveying and Cultural HeritageRemote Sensing and LiDAR Applications