Optimal band selection and transfer in drone-based hyperspectral images for plant-level vegetable crops identification using statistical-swarm intelligence (SSI) hybrid algorithms

Optimal band selection and transfer in drone-based hyperspectral images for plant-level vegetable crops identification using statistical-swarm intelligence (SSI) hybrid algorithms

Hyperspectral imagery from drones are excellent sources of high-resolution plant-level data that helps in efficient crop identification for smart agriculture practices. However, the plant-level crop identification is still challenging, owing to only minute differences among the vegetation spectra an...

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Bibliographic Details
Main Authors: Anagha S. Sarma, Rama Rao Nidamanuri
Format: Article
Language:English
Published: Elsevier 2025-05-01
Series:Ecological Informatics
Subjects:
Precision agriculture
Weibull distribution
Band selection
Swarm intelligence algorithms
Hyperspectral imagery
Drones
Online Access:http://www.sciencedirect.com/science/article/pii/S1574954125000603
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Summary:Hyperspectral imagery from drones are excellent sources of high-resolution plant-level data that helps in efficient crop identification for smart agriculture practices. However, the plant-level crop identification is still challenging, owing to only minute differences among the vegetation spectra and enhanced background diversity. Though the inherent spectral redundancy in hyperspectral data is dealt with various band reduction techniques for distinguishing different land use land cover (LULC) structures at broader level, band reduction at finer level has not been explored, especially for drone-based hyperspectral imagery. In this work, we propose a statistical-swarm intelligence (SSI) hybrid approach for optimal band selection in hyperspectral images for identification of three crops, cabbage, eggplant and tomato, using drone-based imagery acquired over experimental plots of University of Agricultural Sciences, Bengaluru, India. We ranked the spectral bands based on their separability among the ground truth classes that follows a Weibull distribution and applied swarm-intelligence algorithms for the optimal band set. The optimal band set is further tested for its capability to distinguish crops from images acquired at different flight heights of drone, and at different points of time. The results suggest that only 15 bands (462 nm, 470 nm, 498 nm, 502 nm, 514 nm, 534 nm, 542 nm, 550 nm, 582 nm, 590 nm, 614 nm, 762 nm, 902 nm, 914 nm, and 930 nm), spread at specific wavelengths in 450–650 nm and 850–950 nm range are sufficient to distinguish crops at finer spatial resolution and offer classification accuracy of over 93 %, supported by equivalent levels of F1 (0.93) and kappa coefficients (0.9). The specific wavelengths corresponding to optimal bands are capable of detecting crops in images captured at different heights and taken at a different time period, showing the space-time transfer potential of the selected bands for crop detection. The specific wavelengths are also capable of detection of crops in ground based hyperspectral sensor images. Future works on extending to a range of crop species and functional cross verification across airborne or satellite imagery will exemplify the generalizability.
ISSN:1574-9541

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