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Machine Vision and Applications
Erschienen in: Machine Vision and Applications 5/2016

01.07.2016 | Special Issue Paper

Generation and application of hyperspectral 3D plant models: methods and challenges

verfasst von: Jan Behmann, Anne-Katrin Mahlein, Stefan Paulus, Jan Dupuis, Heiner Kuhlmann, Erich-Christian Oerke, Lutz Plümer

Erschienen in: Machine Vision and Applications | Ausgabe 5/2016

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Abstract

Hyperspectral imaging sensors have been introduced for measuring the health status of plants. Recently, they also have been used for close-range sensing of plant canopies with a highly complex architecture. However, the complex geometry of plants and their interaction with the illumination setting severely affect the spectral information obtained. Furthermore, the spatial component of analysis results gain in importance as higher plants are represented by multiple plant organs as leaves, stems and seed pods. The combination of hyperspectral images and 3D point clouds is a promising approach to face these problems. We present the generation and application of hyperspectral 3D plant models as a new, interesting application field for computer vision with a variety of challenging tasks. We sum up a geometric calibration method for hyperspectral pushbroom cameras using a reference object for the combination of spectral and spatial information. Furthermore, we show exemplarily new calibration and analysis methods enabled by the hyperspectral 3D models in an experiment with sugar beet plants. An improved normalization, a comparison of image and 3D analysis and the density estimation of infected surface points underline some of the new capabilities gained using this new data type. Based on such hyperspectral 3D models the effects of plant geometry and sensor configuration can be quantified and modeled. In future, reflectance models can be used to remove or weaken the geometry-related effects in hyperspectral images and, therefore, have the potential to improve automated plant phenotyping significantly.
Vorheriger Artikel Special issue on computer vision and image analysis in plant phenotyping
Nächster Artikel On the value of the Kullback–Leibler divergence for cost-effective spectral imaging of plants by optimal selection of wavebands

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Metadaten
Titel
Generation and application of hyperspectral 3D plant models: methods and challenges
verfasst von
Jan Behmann
Anne-Katrin Mahlein
Stefan Paulus
Jan Dupuis
Heiner Kuhlmann
Erich-Christian Oerke
Lutz Plümer
Publikationsdatum
01.07.2016
Verlag
Springer Berlin Heidelberg
Erschienen in
Machine Vision and Applications / Ausgabe 5/2016
Print ISSN: 0932-8092
Elektronische ISSN: 1432-1769
DOI
https://doi.org/10.1007/s00138-015-0716-8

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