UAV-based Visual Remote Sensing for Automated Building Inspection
This addresses the high cost and time of manual inspections in disaster management, though it is incremental as it builds on existing UAV and computer vision methods.
The paper tackles the problem of manual building inspections for earthquake vulnerability by proposing an automated UAV-based visual remote sensing system, achieving verified accuracy in estimating seismic structural parameters like building distances and plan area through field and Google Earth data.
Unmanned Aerial Vehicle (UAV) based remote sensing system incorporated with computer vision has demonstrated potential for assisting building construction and in disaster management like damage assessment during earthquakes. The vulnerability of a building to earthquake can be assessed through inspection that takes into account the expected damage progression of the associated component and the component's contribution to structural system performance. Most of these inspections are done manually, leading to high utilization of manpower, time, and cost. This paper proposes a methodology to automate these inspections through UAV-based image data collection and a software library for post-processing that helps in estimating the seismic structural parameters. The key parameters considered here are the distances between adjacent buildings, building plan-shape, building plan area, objects on the rooftop and rooftop layout. The accuracy of the proposed methodology in estimating the above-mentioned parameters is verified through field measurements taken using a distance measuring sensor and also from the data obtained through Google Earth. Additional details and code can be accessed from https://uvrsabi.github.io/ .