Mango auto-harvester a good pick in Queensland
Claimed as a world’s first, CQUniversity Professor Kerry Walsh has revealed details of its mango auto-harvester at this week’s Australian Mango Industry Association conference in Darwin.
CQUniversity has been conducting field trials of the first prototype of its mango sensor and auto-harvest technologies at Yeppoon in Central Queensland. The technologies are currently achieving a 75% efficiency in automatically identifying and picking fruit in view; however, the aim is now to take it to commercial-ready deployment with over 90% efficiency.
The equipment was developed as part of a RND4Profit Commonwealth-funded research project led by an industry R&D corporation, Horticulture Innovation (Multiscale Monitoring of Tropical Fruit Trees, led by UNE).
“The auto-harvester has the potential to solve some of the major labour force issues that currently limit the industry,” said Professor Walsh.
“The harvester is part of an integrated system which will ensure farmers know exactly how many fruit are on their trees, when they will be in perfect condition for the consumer and when to employ the right number of people for picking and packing.
“The end goal is to save costs and improve productivity on farm, while driving consumer demand by ensuring a top-quality eating experience every time.”
Professor Walsh’s team has previously delivered to industry a near infrared spectroscopy (NIRS) measurement system to assess the eating quality of mangoes and predict the ideal harvest time.
NIRS sensors and the Fruitmaps app are now adopted within the mango industry. This laid the foundation for CQUni to research in-field machine vision systems to count fruit and estimate fruit size, for fruit load estimates before harvest, allowing farmers to better plan their harvest (eg, employing the right number of pickers at the right time).
“The next step on from that, having ‘seen’ the fruit, was to try to reach out to pick the fruit to automate the harvest,” Professor Walsh said.
“Both harvest estimates and autoharvest work best deployed in small tree-high density orchards, so this work complements the Queensland DAF work on such orchard designs.”
The prototype harvester takes approximately five seconds to harvest a fruit, from detection to placement.
Ian Groves, of Groves Grown Fruit, Yeppoon, hosted the first field trials of the prototype auto-harvester and was excited by the “game-changing” potential of the technology.
“The machinery identifying and counting fruit in the orchard turned out to be within just a few per cent of the actual number of fruit in the entire block last year,” Groves said.
“That technology is also able to measure the size range of that fruit and so knowing how much fruit is in that block, knowing when it’s going to be mature and knowing the size of the fruit, means we can schedule our workforce, order the right number of cartons, the size of the inserts going into those cartons — this could be a real game changer, not only for our farm but for the entire industry.”
The auto-harvester was mounted on a trailer and towed by a ute. The next phase of research will investigate options for it to be mounted on a terrestrial drone to operate autonomously, at faster speeds and higher accuracies.
See how it auto-harvester works on video here.
For more information, visit https://www.cqu.edu.au/research/organisations/institute-for-future-farming-systems/non-invasive-sensor-technology.
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