Impact of feature selection on the accuracy and spatial uncertainty of per-field crop classification using Support Vector Machines

Crop mapping is one major component of agricultural resource monitoring using remote sensing. Yield or water demand modeling requires that both, the total surface that is cultivated and the accurate distribution of crops, respectively is known. Map quality is crucial and influences the model outputs...

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Bibliographic Details
Published in:ISPRS journal of photogrammetry and remote sensing 2013-11, Vol.85, p.102-119
Main Authors: Löw, F., Michel, U., Dech, S., Conrad, C.
Format: Article
Language:English
Subjects:
Accuracy
Animal, plant and microbial ecology
Applied geophysics
Biological and medical sciences
Classification
Crop classification
Crops
Earth sciences
Earth, ocean, space
entropy
Exact sciences and technology
Feature selection
Fundamental and applied biological sciences. Psychology
General aspects. Techniques
geostatistics
information sources
Internal geophysics
irrigation
landscapes
Map uncertainty
Mapping
monitoring
Random forest
RapidEye
Remote sensing
Support Vector Machines
Teledetection and vegetation maps
Time series
time series analysis
Uncertainty
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Summary:Crop mapping is one major component of agricultural resource monitoring using remote sensing. Yield or water demand modeling requires that both, the total surface that is cultivated and the accurate distribution of crops, respectively is known. Map quality is crucial and influences the model outputs. Although the use of multi-spectral time series data in crop mapping has been acknowledged, the potentially high dimensionality of the input data remains an issue. In this study Support Vector Machines (SVM) are used for crop classification in irrigated landscapes at the object-level. Input to the classifications is 71 multi-seasonal spectral and geostatistical features computed from RapidEye time series. The random forest (RF) feature importance score was used to select a subset of features that achieved optimal accuracies. The relationship between the hard result accuracy and the soft output from the SVM is investigated by employing two measures of uncertainty, the maximum a posteriori probability and the alpha quadratic entropy. Specifically the effect of feature selection on map uncertainty is investigated by looking at the soft outputs of the SVM, in addition to classical accuracy metrics. Overall the SVMs applied to the reduced feature subspaces that were composed of the most informative multi-seasonal features led to a clear increase in classification accuracy up to 4.3%, and to a significant decline in thematic uncertainty. SVM was shown to be affected by feature space size and could benefit from RF-based feature selection. Uncertainty measures from SVM are an informative source of information on the spatial distribution of error in the crop maps.
ISSN:0924-2716
1872-8235
DOI:10.1016/j.isprsjprs.2013.08.007