Sunday, December 22, 2024

Strawberry-picking robots trialled to tackle labour shortages

Robots which can harvest and package strawberries in a matter of seconds have been trialled in Essex as part of plans to tackle a labour shortage in the industry.

The University of Essex has been working with jam makers, Wilkin & Sons, to test the new prototype, which it says costs a fraction of the price of existing technology.

This latest project, funded by a £1.02million grant via the Department for Environment, Food and Rural Affairs’ flagship Farming Innovation Programme, has seen the low-cost robot tasked with picking strawberries from one of Wilkins and Sons’ vertical farms in Tiptree.

The robot, which can pick a strawberry in just 2.5 seconds, is based on a previous prototype which has been successfully trialled for the last two seasons.

The modular architecture can be easily adapted to other crops – with robotic harvesting trials planned later on in the project with onions, tomatoes and lettuce.

Dr Vishwanathan Mohan and Professor Klaus McDonald-Maier, both from Essex’s School of Computer Science and Electronic Engineering, have helped design and build the robot.

Dr Mohan said: “Through this project we want to transform how food is grown efficiently using robotics and AI, and make state-of-the-art agri-robotics technologies accessible to everyone.

“Even if smaller farms and businesses can afford a robot, you need a whole fleet of them to make a difference, so it is vital we find cost-effective alternatives to help the agricultural industry.

“At the same time robotics is a game changer to tackle some of the critical challenges facing us – food security, labour security, climate and energy.”

The prototype is able to pick the strawberries using a robotic arm, before weighing each one and placing it in packaging. It is hoped the project will not only reduce the repetitive, labour-intensive process of crop picking, but will also extend the shelf-life of produce by speeding up the packaging process.

Existing crop-picking robots cost on average around £150,000 but if successful, the new prototype will cost a fraction of the price at around £10,000.

Chris Newenham, Joint Managing Director of Wilkin & Sons, said: “Wilkin & Sons are once again delighted to partner with the University of Essex in tackling what is currently the most significant challenge for our industry.

“Our experience from our initial work with the institution is that these challenges are inordinately complex and take time, it is work which is definitely not for the faint hearted but we are confident that we are working with the very best partners and very much looking forward to seeing the fruits of our collective labours over the coming years.”

A message from the Editor:

Thank you for reading this story on our news site - please take a moment to read this important message:

As you know, our aim is to bring you, the reader, an editorially led news site and magazine but journalism costs money and we rely on advertising, print and digital revenues to help to support them.

With the Covid-19 pandemic having a major impact on our industry as a whole, the advertising revenues we normally receive, which helps us cover the cost of our journalists and this website, have been drastically affected.

As such we need your help. If you can support our news sites/magazines with either a small donation of even £1, or a subscription to our magazine, which costs just £31.50 per year, (inc p&P and mailed direct to your door) your generosity will help us weather the storm and continue in our quest to deliver quality journalism.

As a subscriber, you will have unlimited access to our web site and magazine. You'll also be offered VIP invitations to our events, preferential rates to all our awards and get access to exclusive newsletters and content.

Just click here to subscribe and in the meantime may I wish you the very best.
















Latest news

Related news

By continuing to use the site, you agree to the use of cookies. more information

The cookie settings on this website are set to "allow cookies" to give you the best browsing experience possible. If you continue to use this website without changing your cookie settings or you click "Accept" below then you are consenting to this.

Close