Abstract
Machine learning-based plant phenotyping systems have enabled high-throughput, non-destructive measurements of plant traits. Tasks such as object detection, segmentation, and localization of plant traits in images taken in field conditions need the machine learning models to be developed on training datasets that contain plant traits amidst varying backgrounds and environmental conditions. However, the datasets available for phenotyping are typically limited in variety and mostly consist of lab-based images in controlled conditions. Here, we present a new method called TasselGAN, using a variant of a deep convolutional generative adversarial network, to synthetically generate images of maize tassels against sky backgrounds. Both foreground tassel images and background sky images are generated separately and merged together to form artificial field-based maize tassel data to aid the training of machine learning models, where there is a paucity of field-based data. The effectiveness of the proposed method is demonstrated using quantitative and perceptual qualitative experiments.
Highlights
Field-based plant phenotyping is a process wherein the desired plant traits are studied in the plant’s natural environment throughout its growth cycle
We present the results of our generative models and field-based maize tassel images after merging outputs of these models
We have evaluated the perceptual quality of the synthetic field-based maize tassel images by using two tests
Summary
Field-based plant phenotyping is a process wherein the desired plant traits are studied in the plant’s natural environment throughout its growth cycle. Various imaging techniques and machine learning algorithms have enabled the development of high-throughput image-based automated phenotyping methods. Datasets available for highthroughput machine learning-based maize tassel phenotyping are rather limited and are either lab-based [5] or do not have a detailed tassel view [1]. This is a concern considering that the performance of machine learning algorithms relies on a comprehensive training dataset
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