Combining Image Classification and Unmanned Aerial Vehicles to Estimate the State of Explorer Roses

Herrera, David; Escudero-Villa, Pedro; Cárdenas, Eduardo; Ortiz, Marcelo; Varela-Aldás, José

doi:10.3390/agriengineering6020058

AgriEngineering

2024

DOI: 10.3390/agriengineering6020058

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Combining Image Classification and Unmanned Aerial Vehicles to Estimate the State of Explorer Roses

David Herrera,

Pedro Escudero-Villa,

Eduardo Cárdenas

et al.

Abstract: The production of Explorer roses has historically been attractive due to the acceptance of the product around the world. This species of roses presents high sensitivity to physical contact and manipulation, creating a challenge to keep the final product quality after cultivation. In this work, we present a system that combines the capabilities of intelligent computer vision and unmanned aerial vehicles (UAVs) to identify the state of roses ready for cultivation. The system uses a deep learning-based approach t… Show more

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Cited by 1 publication

References 28 publications

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Three-Dimensional Geometric-Physical Modeling of an Environment with an In-House-Developed Multi-Sensor Robotic System

Zhang,

Yu,

Chen

et al. 2024

Remote Sensing

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Environment 3D modeling is critical for the development of future intelligent unmanned systems. This paper proposes a multi-sensor robotic system for environmental geometric-physical modeling and the corresponding data processing methods. The system is primarily equipped with a millimeter-wave cascaded radar and a multispectral camera to acquire the electromagnetic characteristics and material categories of the target environment and simultaneously employs light detection and ranging (LiDAR) and an optical camera to achieve a three-dimensional spatial reconstruction of the environment. Specifically, the millimeter-wave radar sensor adopts a multiple input multiple output (MIMO) array and obtains 3D synthetic aperture radar images through 1D mechanical scanning perpendicular to the array, thereby capturing the electromagnetic properties of the environment. The multispectral camera, equipped with nine channels, provides rich spectral information for material identification and clustering. Additionally, LiDAR is used to obtain a 3D point cloud, combined with the RGB images captured by the optical camera, enabling the construction of a three-dimensional geometric model. By fusing the data from four sensors, a comprehensive geometric-physical model of the environment can be constructed. Experiments conducted in indoor environments demonstrated excellent spatial-geometric-physical reconstruction results. This system can play an important role in various applications, such as environment modeling and planning.

show abstract

Three-Dimensional Geometric-Physical Modeling of an Environment with an In-House-Developed Multi-Sensor Robotic System

Zhang,

Yu,

Chen

et al. 2024

Remote Sensing

View full text Add to dashboard Cite

show abstract

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Combining Image Classification and Unmanned Aerial Vehicles to Estimate the State of Explorer Roses

Cited by 1 publication

References 28 publications

Three-Dimensional Geometric-Physical Modeling of an Environment with an In-House-Developed Multi-Sensor Robotic System

Three-Dimensional Geometric-Physical Modeling of an Environment with an In-House-Developed Multi-Sensor Robotic System

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