Crop Water Status Analysis from Complex Agricultural Data Using UMAP-Based Local Biplot

Jenniffer Carolina Triana-Martinez; Andrés Marino Álvarez-Meza; Julian Gil-González; Tom De Swaef; Jose A. Fernandez-Gallego

doi:10.3390/rs16152854

Remote Sensing (Aug 2024)

Crop Water Status Analysis from Complex Agricultural Data Using UMAP-Based Local Biplot

Jenniffer Carolina Triana-Martinez,
Andrés Marino Álvarez-Meza,
Julian Gil-González,
Tom De Swaef,
Jose A. Fernandez-Gallego

Affiliations

Jenniffer Carolina Triana-Martinez: Signal Processing and Recognition Group, Universidad Nacional de Colombia, Manizales 170003, Colombia
Andrés Marino Álvarez-Meza: Signal Processing and Recognition Group, Universidad Nacional de Colombia, Manizales 170003, Colombia
Julian Gil-González: Automatic Research Group, Universidad Tecnológica de Pereira, Pereira 660003, Colombia
Tom De Swaef: Plant Sciences Unit, Flanders Research Institute for Agriculture Fisheries and Food (ILVO), 9090 Melle, Belgium
Jose A. Fernandez-Gallego: Programa de Ingeniería Electrónica, Facultad de Ingeniería, Universidad de Ibagué, Ibagué 730001, Colombia

DOI: https://doi.org/10.3390/rs16152854
Journal volume & issue: Vol. 16, no. 15
p. 2854

Abstract

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To optimize growth and management, precision agriculture relies on a deep understanding of agricultural dynamics, particularly crop water status analysis. Leveraging unmanned aerial vehicles, we can efficiently acquire high-resolution spatiotemporal samples by utilizing remote sensors. However, non-linear relationships among data features, localized within specific subgroups, frequently emerge in agricultural data. Interpreting these complex patterns requires sophisticated analysis due to the presence of noise, high variability, and non-stationarity behavior in the collected samples. Here, we introduce Local Biplot, a methodological framework tailored for discerning meaningful data patterns in non-stationary contexts for precision agriculture. Local Biplot relies on the well-known uniform manifold approximation and projection method, such as UMAP, and local affine transformations to codify non-stationary and non-linear data patterns while maintaining interpretability. This lets us find important clusters for transformation and projection within a single global axis pair. Hence, our framework encompasses variable and observational contributions within individual clusters. At the same time, we provide a relevance analysis strategy to help explain why those clusters exist, facilitating the understanding of data dynamics while favoring interpretability. We demonstrated our method’s capabilities through experiments on both synthetic and real-world datasets, covering scenarios involving grass and rice crops. Moreover, we use random forest and linear regression models to predict water status variables from our Local Biplot-based feature ranking and clusters. Our findings revealed enhanced clustering and prediction capability while emphasizing the importance of input features in precision agriculture. As a result, Local Biplot is a useful tool to visualize, analyze, and compare the intricate underlying patterns and internal structures of complex agricultural datasets.

Published in Remote Sensing

ISSN: 2072-4292 (Online)
Publisher: MDPI AG
Country of publisher: Switzerland
LCC subjects: Science
Website: http://www.mdpi.com/journal/remotesensing/

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