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YOLOrs: Object Detection in Multimodal Remote Sensing Imagery

Manish Sharma, Mayur Dhanaraj, Srivallabha Karnam, Dimitris G. Chachlakis, Raymond Ptucha, Panos P. Markopoulos, Eli Saber

2020IEEE Journal of Selected Topics in Applied Earth Observations and Remote Sensing177 citationsDOIOpen Access PDF

Abstract

Deep-learning object detection methods that are designed for computer vision applications tend to underperform when applied to remote sensing data. This is because contrary to computer vision, in remote sensing, training data are harder to collect and targets can be very small, occupying only a few pixels in the entire image, and exhibit arbitrary perspective transformations. Detection performance can improve by fusing data from multiple remote sensing modalities, including red, green, blue, infrared, hyperspectral, multispectral, synthetic aperture radar, and light detection and ranging, to name a few. In this article, we propose YOLOrs: a new convolutional neural network, specifically designed for real-time object detection in multimodal remote sensing imagery. YOLOrs can detect objects at multiple scales, with smaller receptive fields to account for small targets, as well as predict target orientations. In addition, YOLOrs introduces a novel mid-level fusion architecture that renders it applicable to multimodal aerial imagery. Our experimental studies compare YOLOrs with contemporary alternatives and corroborate its merits.

Topics & Concepts

Computer scienceArtificial intelligenceComputer visionObject detectionHyperspectral imagingRemote sensingSynthetic aperture radarPixelConvolutional neural networkMultispectral imageRangingPerspective (graphical)Deep learningPattern recognition (psychology)TelecommunicationsGeographyRemote-Sensing Image ClassificationAdvanced Neural Network ApplicationsInfrared Target Detection Methodologies
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