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Fisher Information Based Active Planning for Aerial Photogrammetry

Jaeyoung Lim, Nicholas Lawrance, Florian Achermann, Thomas Stastny, Rik Bähnemann, Roland Siegwart

202314 citationsDOIOpen Access PDF

Abstract

Small uncrewed aerial systems (sUASs) are useful tools for 3D reconstruction due to their speed, ease of use, and ability to access high-utility viewpoints. Today, most aerial survey approaches generate a preplanned coverage pattern assuming a planar target region. However, this is inefficient since it results in superfluous overlap and suboptimal viewing angles and does not utilize the entire flight envelope. In this work, we propose active path planning for photogrammetric reconstruction. Our main contribution is a view utility function based on Fisher information approximating the offline reconstruction uncertainty. The metric enables online path planning to make in-flight decisions to collect geometrically informative image data in complex terrain. We evaluate our approach in a photorealistic simulation. A viewpoint selection study shows that our metric leads to faster and more precise reconstruction than state-of-the-art active planning metrics and adapts to different camera resolutions. Comparing our online planning approach to an ordinary fixed-wing aerial survey yields 3.2 × faster coverage of 16 ha undulated terrain without sacrificing precision.

Topics & Concepts

Computer sciencePhotogrammetryTerrainAerial surveyMetric (unit)Motion planningComputer visionAerial imageArtificial intelligenceViewpointsRemote sensingGeographyImage (mathematics)EngineeringCartographyRobotArtVisual artsOperations managementRobotics and Sensor-Based LocalizationRobotic Path Planning Algorithms3D Surveying and Cultural Heritage
Fisher Information Based Active Planning for Aerial Photogrammetry | Litcius