3D crop reconstruction: A review of hyperspectral and multispectral approaches

Karukayil, A., Mota, J.F.C. and Cheein, F.A.A. (2025) 3D crop reconstruction: A review of hyperspectral and multispectral approaches. Computers and Electronics in Agriculture, 241. ISSN 01681699

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Abstract

Hyperspectral imaging (HSI) has emerged as a powerful tool for precision agriculture, enabling the non-destructive monitoring of crop biochemical and physiological traits. However, HSI alone lacks structural context, which limits its ability to accurately capture complex canopy architectures and organ-level traits. Integrating HSI with depth-sensing modalities such as Light Detection and Ranging (LiDAR), Red, Green, Blue, and Depth (RGB-D) cameras, and computational reconstruction technique such as photogrammetry enables the generation of three-dimensional hyperspectral point clouds, combining spectral richness with geometric fidelity. This multi-modal fusion enhances crop trait estimation, including biomass, leaf chlorophyll content, canopy height, leaf area, and stress indicators, while improving the robustness of phenotyping under occlusions, shadows, and varying illumination. Dimensionality reduction, feature selection, and machine learning approaches, including deep learning and explainable AI, are useful for handling high-dimensional hyperspectral data and extracting actionable agronomic insights. Moreover, the integration of thermal, radar, and Global Navigation Satellite System (GNSS) data further expands the capabilities of multi-modal sensing, enabling continuous, all-weather crop monitoring and accurate spatial referencing. Despite these advances, most studies to date focus on controlled environments, highlighting the need for field-based validation to ensure the reliability and scalability of HSI-depth fusion techniques. This review consolidates current knowledge on multi-modal hyperspectral and 3D crop reconstruction, highlighting methods, applications, and challenges, and outlines future directions for implementing high-throughput, real-time phenotyping and precision agriculture solutions.

Item Type:	Article
Keywords:	3D reconstruction, Hyperspectral imaging, Vegetative indices
Divisions:	Engineering
Depositing User:	Miss Anna Cope
Date Deposited:	26 Feb 2026 13:15
Last Modified:	26 Feb 2026 13:15
URI:	https://hau.repository.guildhe.ac.uk/id/eprint/18325

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