From RGB to Synthetic NIR: Image-to-Image Translation for Pineapple Crop Monitoring Using Pix2PixHD

Darío David Doria Usta; Ricardo Jose Hundelshaussen Rubio; Carlos Martínez López; Delio Luis Salgado Chamorro; Cesar Andres Lopez Martinez; João Felipe  Coimbra Leite Costa; Marcel Antonio  Arcari Bassani

doi:10.3390/technologies13120569

From RGB to Synthetic NIR: Image-to-Image Translation for Pineapple Crop Monitoring Using Pix2PixHD

Darío David Doria Usta
, Ricardo Jose Hundelshaussen Rubio (Co-autor)
, Carlos Martínez López (Co-autor)
, Delio Luis Salgado Chamorro (Co-autor)
, Cesar Andres Lopez Martinez (Co-autor)
, João Felipe Coimbra Leite Costa (Co-autor)
, Marcel Antonio Arcari Bassani (Co-autor)

Producción científica: Contribución a una revista › Artículo en revista científica indexada › revisión exhaustiva

Resumen

Near-infrared (NIR) imaging plays a crucial role in precision agriculture; however, the high cost of multispectral sensors limits its widespread adoption. In this study, we generate synthetic NIR images (2592 × 1944 pixels) of pineapple crops from standard RGB drone imagery using the Pix2PixHD framework. The model was trained for 580 epochs, saving the first model after epoch 1 and then every 10 epochs thereafter. While models trained beyond epoch 460 achieved marginally higher metrics, they introduced visible artifacts. Model 410 was identified as the most effective, offering consistent quantitative performance while producing artifact-free results. Evaluation of Model 410 across 229 test images showed a mean SSIM of 0.6873, PSNR of 29.92, RMSE of 8.146, and PCC of 0.6565, indicating moderate to high structural similarity and reliable spectral accuracy of the synthetic NIR data. The proposed approach demonstrates that reliable NIR information can be obtained without expensive multispectral equipment, reducing costs and enhancing accessibility for farmers. By enabling advanced tasks such as vegetation segmentation and crop health monitoring, this work highlights the potential of deep learning–based image translation to support sustainable and data-driven agricultural practices. Future directions include extending the method to other crops, environmental conditions and real-time drone monitoring.

Idioma original	Inglés
Número de artículo	569
Páginas (desde-hasta)	1-19
Número de páginas	19
Publicación	Technologies
Volumen	13
N.º	12
DOI	https://doi.org/10.3390/technologies13120569
Estado	Publicada - 5 dic. 2025

Nota bibliográfica

Publisher Copyright:
© 2025 by the authors.

Palabras clave

precision agriculture
Pix2PixHD
image-to-image translation
synthetic NIR generation
GANs
pineapple crop
multispectral images

Tipos de Productos Minciencias

Artículos de investigación con calidad A1 / Q1

ODS de las Naciones Unidas

Este resultado contribuye a los siguientes Objetivos de Desarrollo Sostenible

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10.3390/technologies13120569

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title = "From RGB to Synthetic NIR: Image-to-Image Translation for Pineapple Crop Monitoring Using Pix2PixHD",

abstract = "Near-infrared (NIR) imaging plays a crucial role in precision agriculture; however, the high cost of multispectral sensors limits its widespread adoption. In this study, we generate synthetic NIR images (2592 × 1944 pixels) of pineapple crops from standard RGB drone imagery using the Pix2PixHD framework. The model was trained for 580 epochs, saving the first model after epoch 1 and then every 10 epochs thereafter. While models trained beyond epoch 460 achieved marginally higher metrics, they introduced visible artifacts. Model 410 was identified as the most effective, offering consistent quantitative performance while producing artifact-free results. Evaluation of Model 410 across 229 test images showed a mean SSIM of 0.6873, PSNR of 29.92, RMSE of 8.146, and PCC of 0.6565, indicating moderate to high structural similarity and reliable spectral accuracy of the synthetic NIR data. The proposed approach demonstrates that reliable NIR information can be obtained without expensive multispectral equipment, reducing costs and enhancing accessibility for farmers. By enabling advanced tasks such as vegetation segmentation and crop health monitoring, this work highlights the potential of deep learning–based image translation to support sustainable and data-driven agricultural practices. Future directions include extending the method to other crops, environmental conditions and real-time drone monitoring.",

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author = "\{Doria Usta\}, \{Dar{\'i}o David\} and \{Hundelshaussen Rubio\}, \{Ricardo Jose\} and \{Mart{\'i}nez L{\'o}pez\}, Carlos and \{Salgado Chamorro\}, \{Delio Luis\} and \{Lopez Martinez\}, \{Cesar Andres\} and \{Coimbra Leite Costa\}, \{Jo{\~a}o Felipe\} and \{Arcari Bassani\}, \{Marcel Antonio\}",

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year = "2025",

month = dec,

day = "5",

doi = "10.3390/technologies13120569",

language = "Ingl{\'e}s",

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From RGB to Synthetic NIR: Image-to-Image Translation for Pineapple Crop Monitoring Using Pix2PixHD. / Doria Usta, Darío David; Hundelshaussen Rubio, Ricardo Jose (Co-autor); Martínez López, Carlos (Co-autor) et al.
En: Technologies, Vol. 13, N.º 12, 569, 05.12.2025, p. 1-19.

Producción científica: Contribución a una revista › Artículo en revista científica indexada › revisión exhaustiva

TY - JOUR

T1 - From RGB to Synthetic NIR

T2 - Image-to-Image Translation for Pineapple Crop Monitoring Using Pix2PixHD

AU - Doria Usta, Darío David

AU - Hundelshaussen Rubio, Ricardo Jose

AU - Martínez López, Carlos

AU - Salgado Chamorro, Delio Luis

AU - Lopez Martinez, Cesar Andres

AU - Coimbra Leite Costa, João Felipe

AU - Arcari Bassani, Marcel Antonio

PY - 2025/12/5

Y1 - 2025/12/5

N2 - Near-infrared (NIR) imaging plays a crucial role in precision agriculture; however, the high cost of multispectral sensors limits its widespread adoption. In this study, we generate synthetic NIR images (2592 × 1944 pixels) of pineapple crops from standard RGB drone imagery using the Pix2PixHD framework. The model was trained for 580 epochs, saving the first model after epoch 1 and then every 10 epochs thereafter. While models trained beyond epoch 460 achieved marginally higher metrics, they introduced visible artifacts. Model 410 was identified as the most effective, offering consistent quantitative performance while producing artifact-free results. Evaluation of Model 410 across 229 test images showed a mean SSIM of 0.6873, PSNR of 29.92, RMSE of 8.146, and PCC of 0.6565, indicating moderate to high structural similarity and reliable spectral accuracy of the synthetic NIR data. The proposed approach demonstrates that reliable NIR information can be obtained without expensive multispectral equipment, reducing costs and enhancing accessibility for farmers. By enabling advanced tasks such as vegetation segmentation and crop health monitoring, this work highlights the potential of deep learning–based image translation to support sustainable and data-driven agricultural practices. Future directions include extending the method to other crops, environmental conditions and real-time drone monitoring.

AB - Near-infrared (NIR) imaging plays a crucial role in precision agriculture; however, the high cost of multispectral sensors limits its widespread adoption. In this study, we generate synthetic NIR images (2592 × 1944 pixels) of pineapple crops from standard RGB drone imagery using the Pix2PixHD framework. The model was trained for 580 epochs, saving the first model after epoch 1 and then every 10 epochs thereafter. While models trained beyond epoch 460 achieved marginally higher metrics, they introduced visible artifacts. Model 410 was identified as the most effective, offering consistent quantitative performance while producing artifact-free results. Evaluation of Model 410 across 229 test images showed a mean SSIM of 0.6873, PSNR of 29.92, RMSE of 8.146, and PCC of 0.6565, indicating moderate to high structural similarity and reliable spectral accuracy of the synthetic NIR data. The proposed approach demonstrates that reliable NIR information can be obtained without expensive multispectral equipment, reducing costs and enhancing accessibility for farmers. By enabling advanced tasks such as vegetation segmentation and crop health monitoring, this work highlights the potential of deep learning–based image translation to support sustainable and data-driven agricultural practices. Future directions include extending the method to other crops, environmental conditions and real-time drone monitoring.

KW - precision agriculture

KW - Pix2PixHD

KW - image-to-image translation

KW - synthetic NIR generation

KW - GANs

KW - pineapple crop

KW - multispectral images

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DO - 10.3390/technologies13120569

M3 - Artículo en revista científica indexada

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