Automatic and fast classification of barley grains from images: A deep learning approach

Syed Afaq Ali Shah; Hao Luo; Putu Dita Pickupana; Alexander Ekeze; Ferdous Sohel; Hamid Laga; Chengdao Li; Blakely Paynter; Penghao Wang

Smart Agricultural Technology (Dec 2022)

Automatic and fast classification of barley grains from images: A deep learning approach

Syed Afaq Ali Shah,
Hao Luo,
Putu Dita Pickupana,
Alexander Ekeze,
Ferdous Sohel,
Hamid Laga,
Chengdao Li,
Blakely Paynter,
Penghao Wang

Affiliations

Syed Afaq Ali Shah: Centre for AI and Machine Learning, Edith Cowan University, Australia; Information Technology, Murdoch University, Australia
Hao Luo: Western Crop Genetic Alliance, Murdoch University, Australia
Putu Dita Pickupana: Information Technology, Murdoch University, Australia
Alexander Ekeze: Information Technology, Murdoch University, Australia
Ferdous Sohel: Information Technology, Murdoch University, Australia; Centre for Crop and Food Innovation, Murdoch University, Australia; Corresponding authors.
Hamid Laga: Information Technology, Murdoch University, Australia
Chengdao Li: Western Crop Genetic Alliance, Murdoch University, Australia; Department of Primary Industries and Regional Development, Australia
Blakely Paynter: Department of Primary Industries and Regional Development, Australia
Penghao Wang: College of Science, Health, Engineering and Education, Murdoch University, Australia; Corresponding authors.

Journal volume & issue: Vol. 2
p. 100036

Abstract

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Australia has a reputation for producing a reliable supply of high-quality barley in a contaminant-free climate. As a result, Australian barley is highly sought after by malting, brewing, distilling, and feed industries worldwide. Barley is traded as a variety-specific commodity on the international market for food, brewing and distilling end-use, as the intrinsic quality of the variety determines its market value. Manual identification of barley varieties by the naked eye is challenging and time-consuming for all stakeholders, including growers, grain handlers and traders. Current industrial methods for identifying barley varieties include molecular protein weights or DNA based technology, which are not only time-consuming and costly but need specific laboratory equipment. On grain receival, there is a need for efficient and low-cost solutions for barley classification to ensure accurate and effective variety segregation. This paper proposes an efficient deep learning-based technique that can classify barley varieties from RGB images. Our proposed technique takes only four milliseconds to classify an RGB image. The proposed technique outperforms the baseline method and achieves a barley classification accuracy of 94% across 14 commercial barley varieties (some highly genetically related).

Published in Smart Agricultural Technology

ISSN: 2772-3755 (Online)
Publisher: Elsevier
Country of publisher: Netherlands
LCC subjects: Agriculture: Agriculture (General); Social Sciences: Industries. Land use. Labor: Special industries and trades: Agricultural industries
Website: https://www.journals.elsevier.com/smart-agricultural-technology

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