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Main Authors: John, Ronan, Chihoub, Anis, Meegan, Ryan, Sidelli, Gina, Neyhart, Jeffery, Oudemans, Peter, Dana, Kristin
Format: Preprint
Published: 2025
Subjects:
Online Access:https://arxiv.org/abs/2510.08901
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author John, Ronan
Chihoub, Anis
Meegan, Ryan
Sidelli, Gina
Neyhart, Jeffery
Oudemans, Peter
Dana, Kristin
author_facet John, Ronan
Chihoub, Anis
Meegan, Ryan
Sidelli, Gina
Neyhart, Jeffery
Oudemans, Peter
Dana, Kristin
contents Change monitoring is an essential task for cranberry farming as it provides both breeders and growers with the ability to analyze growth, predict yield, and make treatment decisions. However, this task is often done manually, requiring significant time on the part of a cranberry grower or breeder. Deep learning based change monitoring holds promise, despite the caveat of hard-to-interpret high dimensional features and hand-annotations for fine-tuning. To address this gap, we introduce a method for modeling crop growth based on fine-tuning vision transformers (ViTs) using a self-supervised approach that avoids tedious image annotations. We use a two-fold pretext task (time regression and class prediction) to learn a latent space for the time-lapse evolution of plant and fruit appearance. The resulting 2D temporal tracks provide an interpretable time-series model of crop growth that can be used to: 1) predict growth over time and 2) distinguish temporal differences of cranberry varieties. We also provide a novel time-lapse dataset of cranberry fruit featuring eight distinct varieties, observed 52 times over the growing season (span of around four months), annotated with information about fungicide application, yield, and rot. Our approach is general and can be applied to other crops and applications (code and dataset can be found at https://github. com/ronan-39/tlt/).
format Preprint
id arxiv_https___arxiv_org_abs_2510_08901
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Modeling Time-Lapse Trajectories to Characterize Cranberry Growth
John, Ronan
Chihoub, Anis
Meegan, Ryan
Sidelli, Gina
Neyhart, Jeffery
Oudemans, Peter
Dana, Kristin
Computer Vision and Pattern Recognition
I.4.7
Change monitoring is an essential task for cranberry farming as it provides both breeders and growers with the ability to analyze growth, predict yield, and make treatment decisions. However, this task is often done manually, requiring significant time on the part of a cranberry grower or breeder. Deep learning based change monitoring holds promise, despite the caveat of hard-to-interpret high dimensional features and hand-annotations for fine-tuning. To address this gap, we introduce a method for modeling crop growth based on fine-tuning vision transformers (ViTs) using a self-supervised approach that avoids tedious image annotations. We use a two-fold pretext task (time regression and class prediction) to learn a latent space for the time-lapse evolution of plant and fruit appearance. The resulting 2D temporal tracks provide an interpretable time-series model of crop growth that can be used to: 1) predict growth over time and 2) distinguish temporal differences of cranberry varieties. We also provide a novel time-lapse dataset of cranberry fruit featuring eight distinct varieties, observed 52 times over the growing season (span of around four months), annotated with information about fungicide application, yield, and rot. Our approach is general and can be applied to other crops and applications (code and dataset can be found at https://github. com/ronan-39/tlt/).
title Modeling Time-Lapse Trajectories to Characterize Cranberry Growth
topic Computer Vision and Pattern Recognition
I.4.7
url https://arxiv.org/abs/2510.08901