A new self-steering system developed by Volvo is being tested in South American sugarcane fields to see if it can reduce crop spoilage and increase yields.  Photo: Volvo

A new self-steering system developed by Volvo is being tested in South American sugarcane fields to see if it can reduce crop spoilage and increase yields. Photo: Volvo

These are the days of lasers in the jungle
Lasers in the jungle somewhere
Staccato signals of constant information

Paul Simon, The Boy In The Bubble

Volvo tends to keep a lot of its autonomous technology development work under wraps. But, if you look around in the unlikeliest of places, you can find evidence of what the Swedish OEM is up to in terms of advanced vehicle tech.

Case in point, the sugarcane fields of Brazil, where Volvo has deployed a new self-steering truck that the company says can become a significant productivity booster for Brazilian sugarcane growers. It’s also a good example of how emerging autonomous vehicle technology can be used to solve problems that are sometimes beyond the capabilities of all but the most seasoned truck drivers.

The truck, which is used to transport newly harvested sugar cane, is steered with great precision through the fields in order to avoid damaging the young plants that will form the following year's crop. At present, Volvo said, about 4% of the crop is lost as young plants are run over and the soil is compacted by moving vehicles. This can translate into tens of thousands of U.S. dollars in lost revenue per truck per season. Volvo said its new autonomous steering system is so precise, it will not allow a truck to deviate more than 25 mm laterally off a preset course.   

The truck is undergoing field trials in a town called Maringá, an hour's flight west of São Paulo, where the Usina Santa Terezinha Group produces sugar and ethanol from its own sugarcane crops. The truck was developed to examine how automated driving can make it possible to avoid damage to soil and crops, thus boosting revenues. The potential for bigger harvests is significant-- up to ten tons per hectare per year.

Volvo Trucks has solved the problem with a driver assistance system that automates steering. It ensures that the truck always maintains exactly the right course when it drives to, alongside, and away from the harvester, so that the plants are not damaged by trampling.

With the help of GPS receivers, the truck follows a coordinate-based map across the sugarcane field. Two gyroscopes ensure that not only the front wheels but the entire vehicle is steered with great precision. When loading, the driver can choose to regulate speed with the help of the vehicle's cruise control or to accelerate and brake manually. Since the driver is released from the burden of the concentration-demanding and tiring high-precision steering process, it is easier to remain focused and work in a more relaxed and safe way throughout a shift.

"With the help of Volvo Trucks' solution we can increase productivity, not just for one single crop but for the entire lifecycle of the sugar-cane plant, which lasts five to six years," explained Santa Terezinha's Finance and Procurement Director, Paulo Meneguetti.

At present, sugarcane is brought in from the fields using harvesters and manually controlled trucks, which drive alongside each other at a low speed. When a truck is fully loaded and drives off to empty its load, the next one moves up next to the harvester and the procedure is repeated. The big challenge for the truck driver is to match the speed of the harvester and at the same time concentrate fully on driving in its tracks, so as not to trample the nearby plants that will become the following year's crop.

"With this solution, we will soon be able to significantly increase the productivity of our customers in the sugarcane industry," said Wilson Lirmann, president of Volvo Group Latin America. "At the same time, we will improve their drivers' working conditions and safety. This, in turn, will make the job more appealing, and make it easier to recruit and maintain drivers."

Volvo said that this summer the research project will transition into the product development phase, with more vehicles being field-tested. After that, the solution can be expected to become commercially available in the foreseeable future.

Already this year, Volvo Trucks Brazil will offer its VM customers in the sugarcane industry an advanced GPS-based map-reading system that gives the driver far better scope for maintaining a predetermined course, even though actual steering will still be handled manually at this stage.

The project is a reminder that there are real-world problems driving the development of autonomous vehicle technology and serious financial returns waiting for companies willing to adopt and perfect such technology once it’s commercially available. It’s also another reason I think the advent and acceptance of autonomous technology will happen much quicker than many in the trucking industry today currently expect.

About the author
Jack Roberts

Jack Roberts

Executive Editor

Jack Roberts is known for reporting on advanced technology, such as intelligent drivetrains and autonomous vehicles. A commercial driver’s license holder, he also does test drives of new equipment and covers topics such as maintenance, fuel economy, vocational and medium-duty trucks and tires.

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