عربي English Türkçe اردو فارسى
Logo
Latest News
Varieties

New Robots Developed to Harvest Lettuce for First Time

A robot that can pick ripe strawberries at an expo in Tokyo in 2013. Photo: AFP
A robot that can pick ripe strawberries at an expo in Tokyo in 2013. Photo: AFP
TT
20
TT

New Robots Developed to Harvest Lettuce for First Time

A robot that can pick ripe strawberries at an expo in Tokyo in 2013. Photo: AFP
A robot that can pick ripe strawberries at an expo in Tokyo in 2013. Photo: AFP

Researchers at the University of Cambridge have developed a robot that harvests lettuce. Although the prototype named "Vegebot" is nowhere near as fast or efficient as a human worker, it can be considered an achievement in the agriculture robotics field, as described in a study published in the latest issue of The Journal of Field Robotics journal.

Crops such as potatoes and wheat have been harvested mechanically at scale for decades, but many other crops such as iceberg lettuce have to date resisted automation, for two reasons: they can be easily damaged and grow relatively flat to the ground, presenting a challenge for robotic harvesters. Yet, these two problems have been addressed with the new robot.

At the moment, harvesting is the only part of the lettuce life cycle that is done manually, and it's very physically demanding. The researchers also hope Vegebot will contribute to a reduction in costs.

The robot first identifies the 'target' crop within its field of vision, then determines whether particular lettuce is healthy and ready to be harvested, and finally cuts the lettuce from the rest of the plant without crushing it so that it is 'supermarket ready'.

The Vegebot has two main components: a computer vision system and a cutting system. The overhead camera on the Vegebot takes an image of the lettuce field and first identifies all the lettuces in the image, and then for each lettuce, classifies whether it should be harvested or not. Lettuce might be rejected because it's not yet mature, or it might have a disease that could spread to other lettuces in the harvest.

A second camera on the Vegebot is positioned near the cutting blade and helps ensure a smooth cut.

In an email he sent to Asharq Al-Awsat, co-author Josie Hughes admits that: "The robot is slower than human in lettuce harvesting. For a human, the entire process takes a couple of seconds, but it's a really challenging problem for a robot. However, reducing the dependency on humans may help shrink the expenditures, and that's why the new robot is considered economically efficient. "

"We've still got to speed our Vegebot up; however, we plan to market the prototype, which is still being tested before deploying it in fields."

Most Viewed

 
Varieties

SpaceX Starship Explodes During Routine Test

Flames rise as a SpaceX rocket explodes in Brownsville, Texas, US, June 18, 2025, in this screengrab obtained from a social media video. TheRocketFuture via X/via REUTERS
Flames rise as a SpaceX rocket explodes in Brownsville, Texas, US, June 18, 2025, in this screengrab obtained from a social media video. TheRocketFuture via X/via REUTERS
TT
20
TT

SpaceX Starship Explodes During Routine Test

Flames rise as a SpaceX rocket explodes in Brownsville, Texas, US, June 18, 2025, in this screengrab obtained from a social media video. TheRocketFuture via X/via REUTERS
Flames rise as a SpaceX rocket explodes in Brownsville, Texas, US, June 18, 2025, in this screengrab obtained from a social media video. TheRocketFuture via X/via REUTERS

One of Elon Musk's SpaceX Starships exploded during a routine test late Wednesday in Texas, law enforcement said, in the latest setback to the billionaire's dream of turning humanity into an interplanetary species.

The Starship 36 suffered "catastrophic failure and exploded" at the Starbase launch facility shortly after 11:00 pm (0400 GMT Thursday), a Facebook post by the Cameron County authorities said, according to AFP.

A video shared with the post showed the megarocket attached to the launch arm, and then a flash and a towering, fiery explosion.

Musk's Space X said the rocket was preparing for the tenth flight test when it "experienced a major anomaly while on a test stand at Starbase," without elaborating on the nature of the complication.

"A safety clear area around the site was maintained throughout the operation and all personnel are safe and accounted for," Space X added on social media.

"There are no hazards to residents in surrounding communities, and we ask that individuals do not attempt to approach the area while safing operations continue."

The Starship was not scheduled for launch on Wednesday evening when the explosion occurred during a "routine static fire test," according to the Cameron County authorities.

During a static fire, part of the procedures preceding a launch, the Starship's Super Heavy booster would be anchored to the ground to prevent it from lifting off during the test-firing.

Starbase on the south Texas coast, near the border with Mexico, is the headquarters for Musk's space project.

Standing 403 feet (123 meters) tall, Starship is the world's largest and most powerful rocket and central to Musk's long-term vision of colonizing Mars.

The Starship is billed as a fully reusable rocket with a payload capacity of up to 150 metric tons.

The latest setback follows an explosion of a prototype Starship over the Indian Ocean in late May.

The biggest and most powerful launch vehicle ever built had lifted off on May 27 from the Starbase facility, but the first-stage Super Heavy booster blew up instead of executing its planned splashdown in the Gulf of Mexico.

The previous two outings also ended poorly, with the upper stage disintegrating over the Caribbean.

But the failures will likely do little to dent Musk's spacefaring ambitions.

SpaceX has been betting that its "fail fast, learn fast" ethos, which has helped it dominate commercial spaceflight, will eventually pay off.

The company has caught the Super Heavy booster in the launch tower's giant robotic arms three times -- a daring engineering feat it sees as key to rapid reusability and slashing costs.

NASA is also increasingly reliant on SpaceX, whose Dragon spacecraft is vital for ferrying astronauts to and from the International Space Station.

The Federal Aviation Administration (FAA) in early May approved an increase in annual Starship rocket launches from five to 25, stating that the increased frequency would not adversely impact the environment.

The decision overruled objections from conservation groups who had warned the expansion could endanger sea turtles and shorebirds.