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A Glimpse Into the Peach Orchard of the Future

Robots could handle the human-based tasks of thinning and pruning peach trees

Published: Thursday, October 21, 2021 - 11:02

More than 130 million pounds of peaches are produced in Georgia per year, and the Southern staple has a total farm gate value of more than $71 million, according to recent estimates.

But cultivating peaches is a complex and manually intensive process that has put a strain on many farms stretched for time and workers. To solve this problem, the Georgia Tech Research Institute (GTRI) has developed an intelligent robot that is designed to handle the human-based tasks of thinning and pruning peach trees, which could result in significant cost savings for peach farms in Georgia.

“Most folks are familiar with the harvesting of fruit and picking it up at the market,” says Ai-Ping Hu, a GTRI senior research engineer who is leading the robot design project. “But there’s actually a lot more stuff that gets done before that point in the cultivation cycle.”

Peach picking robot
Peaches, not surprisingly, pack a punch for Georgia’s economy. Credit: Ai-Ping Hu

By using a LiDAR remote sensing system, which determines distances by targeting an object with a laser and measuring the amount of time it takes for the laser beam to reflect back, along with a highly specialized GPS technology that measures locations as specific as a fraction of an inch, the robot is able to self-navigate through peach orchards while steering clear of obstacles. Once at a peach tree, the robot uses an embedded 3D camera to determine which peaches need to be removed, and removes the peaches using a claw-like device, known as an end effector, that is connected to the end of its arm.

The robot specifically addresses two key components of the peach cultivation cycle: tree pruning and tree thinning.

Tree pruning refers to the selective removal of branches prior to the spring growing season, which typically occurs from mid-May to early August, and serves many purposes, including exposing more interior surface areas of the fruit trees to sunlight and removing undesired older growth to enable new growth to thrive.

Tree thinning, meanwhile, happens when small or undeveloped peaches, known as peachlets, are removed from peach trees to allow for bigger and better peaches to grow, Hu explains.

“If you just let all the peaches grow to maturity, then what you’ll end up getting is a tree of really small peaches,” Hu said. “What you want to do is have relatively few peaches, but you want the ones that remain to be nice and big and sweet—ones you can actually sell.”

But so far, there are no robots on the market that have been able to fully replace humans in the peach cultivation due to peach orchards’ unstructured environments, which include unpredictable weather, uneven terrain, and trees’ different shapes and sizes, Hu notes.

“In an orchard, no two trees are ever the same,” Hu adds. “You could have a sunny day or a really cloudy day—that’s going to affect the way the technology on the robot can operate.”

“There’s no robot in the world right now that can harvest or thin peaches as well as people can,” Hu says. “The technology’s not quite there yet.”

Current efforts to automate the harvesting of peaches and other specialty crops so far have not been as successful as advancements in commodity crop automation, where machines can collect hundreds of acres of the good at a time. Commodity crops include items such as corn, wheat, and soybeans.

“Specialty crops are still very reliant on manual labor,” Hu says. “That’s really different from something like wheat, where one person driving a combine can harvest thousands of acres, hundreds of acres. Whereas for [peach harvesting], because everything is so individualized, so unique, it’s really been difficult to automate.”

GTRI is exploring ways to incorporate artificial intelligence and deep learning training methods to improve the robot's image classification abilities and overall performance of this peach picking robot
GTRI is exploring ways to incorporate artificial intelligence and deep learning training methods to improve the robot’s image-classification abilities and overall performance. Credit: Ai-Ping Hu

To address these unique issues, GTRI is exploring ways to incorporate artificial intelligence and deep-learning training methods to improve the robot’s image-classification abilities and overall performance. GTRI has also partnered with Dario Chavez, an associate professor in the Department of Horticulture at the University of Georgia Griffin Campus in Griffin, Georgia, to further explore the intelligent automation of peach farming.

Gary McMurray, a GTRI principal research engineer and division chief of GTRI’s Intelligent Sustainable Technologies Division, says the novel robot stands to transform the fruit cultivation process for many farms that have struggled to grow trees that are strong enough to withstand unpredictable environmental conditions.

“This is something that directly affects the yield of the trees,” McMurray says. “It’s money in the pocket of the growers.”

This article first appeared, Sept. 14, 2021, in the Georgia Tech News Center.

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About The Author

Anna Akins’s picture

Anna Akins

Anna Akins is a communications officer at the Georgia Tech Research Institute (GTRI) who writes external-facing stories about GTRI's research efforts that drive economic impact in Georgia, advance national security, and improve the human condition. Prior to GTRI, Anna worked for over 3 years as a technology reporter for S&P Global Market Intelligence, a provider of multi-asset class and real-time data, research, news, and analytics to institutional investors, wealth managers, corporations, and other entities.