Sahand Assadzadeh scite author profile

Sahand Assadzadeh

5Publications

34Citation Statements Received

65Citation Statements Given

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213

Affiliations

Agriculture Victoria

Publications

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Multi-task deep learning of near infrared spectra for improved grain quality trait predictions

Assadzadeh

Walker

McDonald

et al. 2020

Journal of Near Infrared Spectroscopy

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A global predictive model was developed for protein, moisture, and grain type, using near infrared (NIR) spectra. The model is a deep convolutional neural network, trained on NIR spectral data captured from wheat, barley, field pea, and lentil whole grains. The deep learning model performs multi-task learning to simultaneously predict grain protein, moisture, and type, with a significant reduction in prediction errors compared to linear approaches (e.g., partial least squares regression). Moreover, it is shown that the convolutional network architecture learns much more efficiently than simple feedforward neural network architectures of the same size. Thus, in addition to improved accuracy, the presented deep network is very efficient to implement, both in terms of model development time, and the required computational resources.

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Prediction of milling yield in wheat with the use of spectral, colour, shape, and morphological features

Assadzadeh

Walker

McDonald

et al. 2022

Biosystems Engineering

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Images, features, or feature distributions? A comparison of inputs for training convolutional neural networks to classify lentil and field pea milling fractions

McDonald

Assadzadeh

Panozzo

2021

Biosystems Engineering

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Deep Learning Segmentation in Bulk Grain Images for Prediction of Grain Market Quality

Assadzadeh

Walker

Panozzo

2022

Food Bioprocess Technol

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Technologies and Data Analytics to Manage Grain Quality On-Farm—A Review

et al. 2023

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Grains intended for human consumption or feedstock are typically high-value commodities that are marketed based on either their visual characteristics or compositional properties. The combination of visual traits, chemical composition and contaminants is generally referred to as grain quality. Currently, the market value of grain is quantified at the point of receival, using trading standards defined in terms of visual criteria of the bulk grain and chemical constituency. The risk for the grower is that grain prices can fluctuate throughout the year depending on world production, quality variation and market needs. The assessment of grain quality and market value on-farm, rather than post-farm gate, may identify high- and low-quality grain and inform a fair price for growers. The economic benefits include delivering grain that meets specifications maximizing the aggregate price, increasing traceability across the supply chain from grower to consumer and identifying greater suitability of differentiated products for high-value niche markets, such as high protein product ideal for plant-based proteins. This review focuses on developments that quantify grain quality with a range of spectral sensors in an on-farm setting. If the application of sensor technologies were expanded and adopted on-farm, growers could identify the impact and manage the harvesting operation to meet a range of quality targets and provide an economic advantage to the farming enterprise.

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