Internet of things: Cotton harvesting and processing

•Cotton quality and process measurements could be used to optimize logistics, ginning, and textile processing.•Recent research has focused on using RFID technology to track harvested seed cotton and associate quality measurements with field locations.•In the future, robotic harvesting and connected...

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Bibliographic Details
Published in:Computers and electronics in agriculture 2022-11, Vol.202, p.107294, Article 107294
Main Authors: Hardin, Robert G., Barnes, Edward M., Delhom, Christopher D., Wanjura, John D., Ward, Jason K.
Format: Article
Language:English
Subjects:
agriculture
Cotton
cotton industry
crop management
diagnostic techniques
electronics
fabrics
fiber quality
Ginning
Harvesting
Internet
Internet of things
lint cotton
Textiles
Traceability
USDA
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Summary:•Cotton quality and process measurements could be used to optimize logistics, ginning, and textile processing.•Recent research has focused on using RFID technology to track harvested seed cotton and associate quality measurements with field locations.•In the future, robotic harvesting and connected devices in gins and textile mills will enable greater efficiency in production, processing, and logistics.•Improved broadband access and wireless networking protocols for agriculture are needed.•Cotton industry data standardization and sharing policies must be developed to take full advantage of IoT devices. Cotton requires multiple processing steps to convert the raw agricultural products into finished textiles. Genetic and environmental factors, crop management decisions, and processing practices interact to affect optimal end use, product quality, and process efficiency. Currently, only limited data sharing occurs between sectors of the cotton industry, primarily the official USDA classing data used to determine the value of cotton bales. Increasing digitization could improve productivity, sustainability, and competitiveness with synthetic fibers. Current research has focused on utilizing RFID technology incorporated in a recently introduced harvest system for logistics and associating cotton fiber quality with field locations. Gins and textile mills use some connected sensors; however, their use is primarily limited to remote monitoring and diagnostics. In the future cotton industry, a much larger number of connected devices and sensors can provide information on the production and processing history of raw materials. Developments in agricultural robotics will offer a platform for measuring yield and quality on a site-specific basis in the field. Additional networked sensors and devices at gins and textile mills will provide additional information on product quality and process efficiency. Networking these connected devices will allow for the development of advanced analytics for optimizing logistics and processing industry-wide. Several challenges must be addressed to successfully implement IoT devices in the cotton industry. Improved rural broadband access and more suitable wireless networking protocols for field sensors are needed, although recently introduced technology may offer potential solutions. The cotton industry needs to develop appropriate data standards and data sharing policies. Integrating these data sources creates a new management paradigm,
ISSN:0168-1699
1872-7107
DOI:10.1016/j.compag.2022.107294